CN104602614B - The data acquisition operation method of portable mobile medical terminal and system - Google Patents

Abstract

The present invention is applicable to the field of electronic communication, and provides a data acquisition and calculation method of a portable mobile medical terminal, the method comprising: periodically acquiring the user's heart rate, body temperature, blood pressure and skin conductivity data; After processing the skin conductivity data, calculate the average value of heart rate, body temperature, blood pressure and skin conductivity data; calculate the female ovulation period based on the average value of heart rate, body temperature, blood pressure and skin conductivity data. The method provided by the invention has the advantage of being able to remind women of the ovulation period in time.

Description

Data acquisition and calculation method and system for portable mobile medical terminal

technical field

The invention belongs to the field of electronic communication, and in particular relates to a data collection and calculation method and system for a portable mobile medical terminal.

Background technique

Mobile health, defined by the international medical and health membership organization HIMSS, is mHealth, which provides medical services and information through the use of mobile communication technologies such as PDAs, mobile phones and satellite communications. Specifically, in the field of mobile Internet, it is based on Android It provides an effective method for medical and health services in developing countries. In the case of shortage of medical human resources, mobile medical can solve the medical problems in developing countries. question.

With the development of existing mobile medical care, the treatment of diseases through mobile medical care is still in the experimental stage. Most mobile medical care only detects the physiological data of users through mobile medical terminals. Existing mobile medical devices only stop at the detection and transmission of user data, for example, detect the user's blood pressure, blood oxygen, ECG, body temperature and other data, draw these data into graphics or transmit them to the background through the mobile network, It is stored by the background, and the physiological data is only routine data. For some special data, the existing mobile medical terminal cannot collect, such as the prediction of female ovulation period; the existing mobile medical cannot effectively remind the user. Data collection and accuracy are also limited.

Contents of the invention

The purpose of the embodiments of the present invention is to provide a data collection and calculation method for a portable mobile medical terminal, so as to solve the problem that the existing technology cannot effectively remind the user.

The embodiment of the present invention is achieved in this way, a data acquisition and calculation method of a portable mobile medical terminal, the method comprising:

Periodically obtain the user's heart rate, body temperature, blood pressure and skin conductivity data;

After processing the heart rate, body temperature, blood pressure and skin conductivity data, calculate the average value of the heart rate, body temperature, blood pressure and skin conductivity data;

A woman's ovulation period is calculated based on the average of heart rate, body temperature, blood pressure and skin conductivity data.

Optionally, the calculation of the female ovulation period based on the average value of heart rate, body temperature, blood pressure and skin conductivity data is specifically:

Days of female ovulation period = first parameter + second parameter + third parameter + fourth parameter rounded down;

Wherein, the first parameter=N1 multiplied by the average temperature value divided by the first denominator, the first denominator is specifically: 100 multiplied by the sum of the difference between each body temperature value and the average temperature value;

The second parameter=30 multiplied by 1.9 multiplied by N2 multiplied by the average value of skin conductivity divided by the sum of the difference between each skin conductivity and the average value of skin conductivity;

The third parameter = the sum of the difference between each blood pressure value and the average blood pressure divided by the third denominator, the third denominator is specifically: 6*N3;

The fourth parameter = the sum of the difference between each heart rate value and the heart rate mean value divided by the fourth denominator, the fourth denominator is specifically: 15*N4;

Among them, N1 represents the number of body temperature data sampled the previous day, N2 represents the number of skin conductivity samples sampled the previous day, N3 represents the number of blood pressure samples sampled the previous day, and N4 represents the number of heart rate data sampled the previous day.

Optionally, after calculating the female ovulation period based on the average value of heart rate, body temperature, blood pressure and skin conductivity data, the method further includes:

Comparing the calculated female ovulation period with the historical record of female ovulation period to get the deviation value, if the deviation value exceeds the threshold, it will be deleted, if the deviation value does not exceed the threshold value, it will be displayed.

Optionally, the deviation value obtained by comparing the calculated female ovulation period with the historical recorded female ovulation period specifically includes:

Deviation value = the square of the calculated female ovulation period value minus the square of the average value of the ovulation period in the previous 12 months in the historical record and then divided by the average value of the ovulatory period in the previous 12 months in the historical record multiplied by 100%.

On the other hand, a data collection and computing system of a portable mobile medical terminal is provided, the system comprising:

The acquisition unit is used to periodically acquire the user's heart rate, body temperature, blood pressure and skin conductivity data;

The processing unit calculates the average value of the data of heart rate, body temperature, blood pressure and skin conductivity after processing the data of heart rate, body temperature, blood pressure and skin conductivity;

The calculation unit is used to calculate the female ovulation period according to the average value of heart rate, body temperature, blood pressure and skin conductivity data.

Optionally, the calculation unit is specifically used for

Days of female ovulation period = first parameter + second parameter + third parameter + fourth parameter rounded down;

Wherein, the first parameter=N1 multiplied by the average temperature value divided by the first denominator, the first denominator is specifically: 100 multiplied by the sum of the difference between each body temperature value and the average temperature value;

The second parameter=30 multiplied by 1.9 multiplied by N2 multiplied by the average value of skin conductivity divided by the sum of the difference between each skin conductivity and the average value of skin conductivity;

The third parameter = the sum of the difference between each blood pressure value and the average blood pressure divided by the third denominator, the third denominator is specifically: 6*N3;

The fourth parameter = the sum of the difference between each heart rate value and the heart rate mean value divided by the fourth denominator, the fourth denominator is specifically: 15*N4;

Among them, N1 represents the number of body temperature data sampled the previous day, N2 represents the number of skin conductivity samples sampled the previous day, N3 represents the number of blood pressure samples sampled the previous day, and N4 represents the number of heart rate data sampled the previous day.

Optionally, the system also includes:

The exclusion display unit is used to compare the calculated female ovulation period with the historical recorded female ovulation period to obtain a deviation value, delete if the deviation value exceeds the threshold, and display if the deviation value does not exceed the threshold.

Optionally, the exclusion display unit is specifically used for

Deviation value = the square of the calculated female ovulation period value minus the square of the average value of the ovulation period in the previous 12 months in the historical record and then divided by the average value of the ovulatory period in the previous 12 months in the historical record multiplied by 100%.

In the embodiment of the present invention, the technical solution provided by the present invention provides a data collection and calculation method for a portable mobile medical terminal, which aims to effectively predict the ovulation period of women, so it has the advantage of being able to remind women of the ovulation period in time.

Description of drawings

Fig. 1 is the flow chart of the data acquisition operation method of a kind of portable mobile medical terminal provided by the present invention;

Fig. 2 is a structural diagram of the data acquisition and calculation system of the portable mobile medical terminal provided by the present invention.

detailed description

In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

The specific embodiment of the present invention provides a data acquisition and calculation method of a portable mobile medical terminal, which is completed by the mobile medical terminal, as shown in Figure 1, including:

101. Periodically obtain the user's heart rate, body temperature, blood pressure and skin conductivity data;

102. After processing the heart rate, body temperature, blood pressure and skin conductivity data, calculate the average value of the heart rate, body temperature, blood pressure and skin conductivity data;

103. Calculate the female ovulation period based on the average value of heart rate, body temperature, blood pressure and skin conductivity data.

Optionally, the implementation method of the above 103 may specifically be:

Days of female ovulation period = first parameter + second parameter + third parameter + fourth parameter rounded down;

Wherein, the first parameter=N1 multiplied by the average temperature value divided by the first denominator, the first denominator is specifically: 100 multiplied by the sum of the difference between each body temperature value and the average temperature value;

The second parameter=30 multiplied by 1.9 multiplied by N2 multiplied by the average value of skin conductivity divided by the sum of the difference between each skin conductivity and the average value of skin conductivity;

The third parameter = the sum of the difference between each blood pressure value and the average blood pressure divided by the third denominator, the third denominator is specifically: 6*N3;

The fourth parameter = the sum of the difference between each heart rate value and the heart rate mean value divided by the fourth denominator, the fourth denominator is specifically: 15*N4;

Among them, N1 represents the number of body temperature data sampled the previous day, N2 represents the number of skin conductivity samples sampled the previous day, N3 represents the number of blood pressure samples sampled the previous day, and N4 represents the number of heart rate data sampled the previous day.

Optionally, after step 103, the above method may also include:

Comparing the calculated female ovulation period with the historical record of female ovulation period to get the deviation value, if the deviation value exceeds the threshold, it will be deleted, if the deviation value does not exceed the threshold value, it will be displayed.

Optionally, the specific implementation method of the above method may be:

Deviation value = the square of the calculated female ovulation period value minus the square of the average value of the ovulation period in the previous 12 months in the historical record and then divided by the average value of the ovulatory period in the previous 12 months in the historical record multiplied by 100%.

The purpose of calculating the deviation value by the square difference is to avoid the calculated error range being too small, and the threshold value is not easy to determine, because for the number of days, the range deviation of the calculated number of days is very small, generally within 1 day, if the normal error is used If the calculation method is used, the calculated female ovulation period value with a large deviation will be retained, so this error elimination method can improve the accuracy of the display.

Through the collection of massive data, it is found that the closer the female ovulation period is, the smaller the fluctuation range of the skin conductivity is, and the value becomes larger at the same time, the difference in blood pressure and heart rate will also have changes in fine lines, and this situation is calculated The female ovulation period is very accurate, but for body temperature data, blood pressure data and heart rate data, the change in the female ovulation period and the normal time change are not so obvious. Experiments have proved that the above calculated female ovulation period The number of days can meet the needs of women of normal childbearing age.

The specific embodiment of the present invention also provides a data acquisition computing system of a portable mobile medical terminal, the system is shown in Figure 2, including:

The acquisition unit 201 is used to periodically acquire the user's heart rate, body temperature, blood pressure and skin conductivity data;

The processing unit 202, after processing the heart rate, body temperature, blood pressure and skin conductivity data, calculates the average value of the heart rate, body temperature, blood pressure and skin conductivity data;

The calculation unit 203 is used to calculate the female ovulation period according to the average value of heart rate, body temperature, blood pressure and skin conductivity data.

Optionally, the computing unit 203 is specifically used to

Days of female ovulation period = first parameter + second parameter + third parameter + fourth parameter rounded down;

Wherein, the first parameter=N1 multiplied by the average temperature value divided by the first denominator, the first denominator is specifically: 100 multiplied by the sum of the difference between each body temperature value and the average temperature value;

The second parameter=30 multiplied by 1.9 multiplied by N2 multiplied by the average value of skin conductivity divided by the sum of the difference between each skin conductivity and the average value of skin conductivity;

The third parameter = the sum of the difference between each blood pressure value and the average blood pressure divided by the third denominator, the third denominator is specifically: 6*N3;

The fourth parameter = the sum of the difference between each heart rate value and the heart rate mean value divided by the fourth denominator, the fourth denominator is specifically: 15*N4;

Among them, N1 represents the number of body temperature data sampled the previous day, N2 represents the number of skin conductivity samples sampled the previous day, N3 represents the number of blood pressure samples sampled the previous day, and N4 represents the number of heart rate data sampled the previous day.

Optionally, the system also includes:

The exclusion display unit 204 is configured to compare the calculated female ovulation period with the historical recorded female ovulation period to obtain a deviation value, delete if the deviation value exceeds the threshold, and display if the deviation value does not exceed the threshold.

Optionally, the exclusion display unit 204 is specifically used for

Deviation value = the square of the calculated female ovulation period value minus the square of the average value of the ovulation period in the previous 12 months in the historical record and then divided by the average value of the ovulatory period in the previous 12 months in the historical record multiplied by 100%.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. within range.

Claims (2)

1. a kind of data acquisition operation method of portable mobile medical terminal, it is characterised in that methods described includes：

Heart rate, body temperature, blood pressure and the skin conductivity rate data of user are obtained periodically；

After processing to heart rate, body temperature, blood pressure and skin conductivity rate data, heart rate, body temperature, blood pressure and skin conductivity rate are calculated The meansigma methodss of data；

Go out female ovulatory period according to the mean value calculation of heart rate, body temperature, blood pressure and skin conductivity rate data；

The mean value calculation according to heart rate, body temperature, blood pressure and skin conductivity rate data goes out female ovulatory period and is specially：

Female ovulatory period natural law=the first parameter the+the second parameter the+the four parameter of the+the three parameter is rounded downwards；

Wherein, the first parameter=N1 is multiplied by body temperature meansigma methodss divided by the first denominator, and the first denominator is specially：100 are multiplied by every individuality Temperature value and the average value difference of body temperature and；

Be multiplied by 1.9 and be multiplied by N2 and skin conductivity rate meansigma methodss are multiplied by divided by each skin conductivity rate and skin conductivity in the second parameter=30 The sum of the average value difference of rate；

3rd parameter=each pressure value and mean value of blood pressure difference and divided by the 3rd denominator, the 3rd denominator is specially：6*N3；

4th parameter=each heart rate value and the equal value difference of heart rate and divided by the 4th denominator, the 4th denominator is specially：15*N4；

Wherein, N1 represents the number of the temperature data of the previous day sampling, and N2 represents the number of the skin conductivity rate of the previous day sampling, N3 represents the number of the blood pressure of the previous day sampling, and N4 represents the number of the heart rate of the previous day sampling；

The female ovulatory period of the female ovulatory period for calculating and historical record is carried out into contrast and obtains deviation, such as deviation exceedes Threshold value, then delete, and such as deviation is then shown not less than threshold value；It is described by the female ovulatory period for calculating and the female of historical record Property carries out contrast and obtains deviation specifically including the onset of ovulation：

The average of the onset of ovulation for square deducting first 12 months in historical record of the female ovulation time value of deviation=calculate Square then be multiplied by absolutely divided by the average of the onset of ovulation of first 12 months in historical record.

2. a kind of data acquisition arithmetic system of portable mobile medical terminal, it is characterised in that the system includes：

Collecting unit, for the heart rate, body temperature, blood pressure and the skin conductivity rate data that periodically obtain user；

Processing unit, after processing to heart rate, body temperature, blood pressure and skin conductivity rate data, calculate heart rate, body temperature, blood pressure and The meansigma methodss of skin conductivity rate data；

Computing unit, for going out female ovulatory period according to the mean value calculation of heart rate, body temperature, blood pressure and skin conductivity rate data； The computing unit specifically for

Female ovulatory period natural law=the first parameter the+the second parameter the+the four parameter of the+the three parameter is rounded downwards；

Wherein, the first parameter=N1 is multiplied by body temperature meansigma methodss divided by the first denominator, and the first denominator is specially：100 are multiplied by every individuality Temperature value and the average value difference of body temperature and；

Be multiplied by 1.9 and be multiplied by N2 and skin conductivity rate meansigma methodss are multiplied by divided by each skin conductivity rate and skin conductivity in the second parameter=30 The sum of the average value difference of rate；

3rd parameter=each pressure value and mean value of blood pressure difference and divided by the 3rd denominator, the 3rd denominator is specially：6*N3；

4th parameter=each heart rate value and the equal value difference of heart rate and divided by the 4th denominator, the 4th denominator is specially：15*N4；

Wherein, N1 represents the number of the temperature data of the previous day sampling, and N2 represents the number of the skin conductivity rate of the previous day sampling, N3 represents the number of the blood pressure of the previous day sampling, and N4 represents the number of the heart rate of the previous day sampling；

Display unit is excluded, is obtained partially for the female ovulatory period of the female ovulatory period for calculating and historical record is carried out contrast Difference, such as deviation exceed threshold value, then delete, and such as deviation is then shown not less than threshold value；

The average of the onset of ovulation for square deducting first 12 months in historical record of the female ovulation time value of deviation=calculate Square then be multiplied by absolutely divided by the average of the onset of ovulation of first 12 months in historical record.