CN113576427A

CN113576427A - Multifunctional human health data acquisition system

Info

Publication number: CN113576427A
Application number: CN202110868968.6A
Authority: CN
Inventors: 蔡运富; 熊超; 徐崇辉
Original assignee: Chongqing College of Electronic Engineering
Current assignee: Chongqing College of Electronic Engineering
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2021-11-02

Abstract

The invention relates to the technical field of monitoring and detection, and particularly discloses a multifunctional human health data acquisition system, which comprises a server and an intelligent terminal, wherein the server is connected with the intelligent terminal; the server is connected with the intelligent terminal through Bluetooth, and the intelligent terminal is used for collecting basic human body data and sending the basic human body data to the server in real time; the intelligent terminal is also used for judging whether the current connection with the server is interrupted or not, and if the current connection with the server is interrupted; the intelligent terminal is also used for judging whether the basic data of the human body exceeds a threshold value or not, and playing a prompt tone if the basic data of the human body exceeds the threshold value; and if the human body basic data do not exceed the threshold value, storing the human body basic data, and sending the stored human body basic data to the server when the connection with the server is recovered. By adopting the technical scheme of the invention, the influence caused by signal interruption can be reduced.

Description

Multifunctional human health data acquisition system

Technical Field

The invention relates to the technical field of monitoring and detection, in particular to a multifunctional human health data acquisition system.

Background

With the improvement of living standard of people and the gradual enhancement of health consciousness, a plurality of electronic health detection devices for detecting personal health data, such as electronic sphygmomanometers, electronic blood glucose meters, multi-parameter detectors, electronic pedometers, digital weighing machines and the like, gradually become an essential part of life of people. The electronic health detection device can acquire the current physiological parameters of the user, further acquire the health condition of the user, and can also be used as a reference basis for body building or diet control.

However, a plurality of electronic health detection devices can be connected with the home gateway respectively, and even if one electronic health detection device is disconnected, other data can be used as reference. But the use of a plurality of electronic type health detection device and accomodate the process inconvenient, and the health detection device of integrated form, it is more convenient to use, but runs into signal problem and home gateway disconnection back, and all data all can not in time upload, can not carry out timely analysis processes to user's current physiological parameter.

Therefore, a multifunctional human health data acquisition system capable of reducing the influence caused by signal interruption is needed.

Disclosure of Invention

The invention provides a multifunctional human health data acquisition system which can reduce the influence caused by signal interruption.

In order to solve the technical problem, the present application provides the following technical solutions:

a multifunctional human health data acquisition system comprises a server and an intelligent terminal; the server is connected with the intelligent terminal through Bluetooth, and the intelligent terminal is used for collecting basic human body data and sending the basic human body data to the server in real time;

the intelligent terminal is also used for judging whether the current connection with the server is interrupted or not, and if the current connection with the server is interrupted; the intelligent terminal is also used for judging whether the basic data of the human body exceeds a threshold value or not, and playing a prompt tone if the basic data of the human body exceeds the threshold value; and if the human body basic data do not exceed the threshold value, storing the human body basic data, and sending the stored human body basic data to the server when the connection with the server is recovered.

The basic scheme principle and the beneficial effects are as follows:

in the scheme, the intelligent terminal is used for collecting the basic data of the human body, so that a user can know the current physiological parameters conveniently. The human body basic data are sent to the server in real time, so that the follow-up server can analyze the human body basic data in real time conveniently, and a result can be obtained in time. Compared with the WiFi connection mode, the Bluetooth connection mode is adopted, the power consumption is lower, and the endurance of the intelligent terminal can be effectively prolonged. When the connection between the intelligent terminal and the server is interrupted, whether the human basic data exceed the threshold value or not is judged, if not, the fact that the current human basic data are not large abnormal is indicated, the human basic data are stored and uploaded when the connection with the server is restored, and therefore large influence on health analysis cannot be caused. When the basic data of the human body exceeds the threshold value, the fact that the current basic data of the human body is large in abnormity is indicated, further analysis is needed, and follow-up notification of operations of doctors or family members is facilitated. Through the broadcast prompt tone, can in time remind the user to inspect the bluetooth, the intelligent terminal of being convenient for carries out the reconnection with the server, resumes the transmission of human basic data.

The mobile phone terminal is connected with the server through WIFI, used for waking up after acquiring prompt tones and used for establishing Bluetooth connection with the intelligent terminal after waking up; and acquiring human body basic data from the intelligent terminal and sending the human body basic data to the server.

The prompt tone can not only play a role of reminding the user, but also can be used as a 'awakening word' of the mobile phone end to achieve the purpose of awakening the mobile phone end. After being awakened, the mobile phone terminal serves as a bridge between the intelligent terminal and the server to transmit the human body basic data, and even if the connection between the intelligent terminal and the server is interrupted, the human body basic data can be guaranteed to be sent to the server in time.

Further, the human body basic data comprises electrocardiosignals, temperature information and motion information.

Furthermore, the intelligent terminal comprises an electrocardiosignal acquisition module, a Bluetooth module and a processing module, wherein the electrocardiosignal acquisition module is used for acquiring electrocardiosignals, the processing module is used for sending the electrocardiosignals to a server through the Bluetooth module, and the server is used for filtering the electrocardiosignals and calculating the heart rate of the human body based on the filtered electrocardiosignals.

Because the human body is a complex life system, various other physiological electric signals interfere the electrocardiosignals, the interference signals can be effectively filtered through filtering, and the accuracy of heart rate calculation is improved.

Further, the motion information comprises angle data and first acceleration data; the device also comprises a motion acquisition module used for acquiring angle data and first acceleration data; the processing module is used for controlling the Bluetooth module to send the angle data and the first acceleration data to the server, and the server is used for calculating the motion state according to the angle data and the first acceleration data.

Further, the processing module is used for judging whether the temperature information exceeds a threshold value, and if the temperature information exceeds the threshold value, a prompt tone is played.

Compared with electrocardio signals and motion information, the temperature information does not need to be processed in a complex way, the requirement on the calculation performance of the processing module is low, and the adaptability is better.

Further, the filtering process adopts IIR digital filtering, median filtering or average filtering.

Further, the processing module is used for judging whether the first acceleration data exceeds a threshold value, and if the first acceleration data exceeds the threshold value, a prompt tone is played.

The first acceleration data can identify the situation of violent movement or sudden fall.

Further, the mobile phone end is also used for acquiring second acceleration data, and after the mobile phone end acquires the human basic data through the Bluetooth module, whether the mobile phone end is in a static state or not is judged based on the second acceleration data, and if the mobile phone end is not in the static state, the second acceleration data and the human basic data are sent to the server.

Drawings

FIG. 1 is a logic block diagram of a multi-functional human health data acquisition system according to an embodiment;

fig. 2 is a heart rate waveform.

Detailed Description

The following is further detailed by way of specific embodiments:

example one

As shown in fig. 1, the multifunctional human health data acquisition system of the embodiment includes a server, an intelligent terminal, and a mobile phone terminal. The intelligent terminal is used for collecting human body basic data and sending the human body basic data to the server in real time.

In this embodiment, the intelligent terminal includes an electrocardiographic acquisition module, a bluetooth module, a processing module, a motion acquisition module and a temperature acquisition module. In this embodiment, the ecg acquisition module adopts an ADS129 chip, the temperature acquisition module adopts an LMT70 chip, the motion acquisition module adopts an MPU6050 chip, the bluetooth module adopts an HC-05 chip, and the processing module adopts an STM32 chip. The server is connected with the Bluetooth module through Bluetooth.

The human body basic data comprises electrocardiosignals, temperature information and motion information.

The electrocardio module is used for collecting electrocardiosignals, the processing module is used for sending the electrocardiosignals to the server through the Bluetooth module, and the server is used for filtering the electrocardiosignals and calculating the heart rate of a human body based on the filtered electrocardiosignals. The filtering process adopts IIR digital filtering, median filtering or average filtering, and in this embodiment, median filtering is adopted.

Specifically, the ADS129 chip picks up electrocardiosignals through electrodes attached to the surface of human skin. Due to the polarization that occurs between the electrodes and the skin tissue, the electrocardiosignals are severely disturbed. In addition, the human body is a complex living system, and various other physiological electric signals interfere the electrocardiosignals. Meanwhile, because the human body is in an electromagnetic surrounding environment, the human body is like an antenna which can move, and interference signals of about 50Hz can be generated on the electrocardiosignals. The electrocardiosignals have the characteristics of weak strength, low frequency, high impedance and the like, and are easily interfered, so the collected electrocardiosignals have other clutter, and a filtering method is needed to remove the interference of the clutter. The waveform processed by the median filtering method is more visual and smoother.

When the server calculates the heart rate of the human body, a corresponding heart rate oscillogram is obtained according to the filtered electrocardiosignals, as shown in fig. 2. The Heart Rate (Heart Rate) is the number of beats per minute of the Heart, and each peak in the Heart Rate oscillogram is a heartbeat, so that the current Heart Rate is obtained by calculating the number of peaks in one minute. Since the measurement time of one minute is too long, in this embodiment, only the time period of the peak is calculated, then the RR interval is obtained by dividing the time period of the peak by the number of peaks, and then the RR interval is obtained by dividing 60s by the RR interval. The formula for calculating the heart rate specifically is as follows: the peak rate is 60/(peak-1)/peak time period.

The motion information comprises angle data and first acceleration data; the motion acquisition module is used for acquiring angle data and first acceleration data; the processing module is used for controlling the Bluetooth module to send the angle data and the first acceleration data to the server, and the server is used for calculating the motion state according to the angle data and the first acceleration data. The motion state comprises walking and static, and when the motion state is walking, the server is further used for calculating the step number according to the angle data and the first acceleration data.

The temperature acquisition module is used for acquiring electric signals, the processing module is used for carrying out analog-to-digital conversion on the electric signals to calculate temperature information, and the Bluetooth module is controlled to send the temperature information to the server.

Specifically, the processing module performs analog-to-digital conversion using a plurality of continuously acquired electrical signals, for example, 22 times, then averages the values obtained after the analog-to-digital conversion by removing the maximum value and the minimum value, and calculates a voltage value based on the average value, wherein the calculation formula is as follows:

Voltage＝ADC_Value*(3.3/4096)*1000

wherein, ADC _ Value is an average Value.

And converting the obtained voltage value into a temperature value namely temperature information, wherein the conversion formula is as follows:

T＝204.6398-(7.857923*10^-6*Voltage*Voltage)-(1.77501*10^-1*Voltage)

and finally, converting the obtained real-type temperature value 100 into an integer for convenient transmission.

The processing module is also used for judging whether the current connection with the server is interrupted, if so, the processing module is also used for judging whether the temperature information exceeds a threshold value, and if so, a prompt tone is played; and if the human body basic data do not exceed the threshold value, storing the human body basic data, and sending the stored human body basic data to the server when the connection with the server is recovered.

The mobile phone end is connected with the server through WIFI, and is used for awakening after the prompt tone is collected and establishing Bluetooth connection with the intelligent terminal after awakening; the stored human body basic data are obtained through the Bluetooth module and are sent to the server, and the processing module is further used for deleting the stored human body basic data after the Bluetooth module sends the human body basic data.

Example two

The difference between this embodiment and the first embodiment is that, in this embodiment, after the processing module determines that the current connection with the server is interrupted, the processing module is further configured to determine whether the first acceleration data exceeds a threshold, and if the first acceleration data exceeds the threshold, a warning tone is played.

The mobile phone end is also used for acquiring second acceleration data. After the human basic data are acquired through the Bluetooth module, whether the mobile phone end is in a static state or not is judged based on the second acceleration data, and if the mobile phone end is not in the static state, the second acceleration data and the human basic data are sent to the server.

And if the mobile phone end is in a static state, the mobile phone end is used for generating reminding information after sending the human body basic data to the server. In this embodiment, the reminding information is: and the Bluetooth connection of the intelligent terminal is disconnected.

The mobile phone end is also used for judging whether the user checks the prompt information within the preset time, and if so, the prompt information is not processed; and if not, generating early warning information and sending the early warning information to the server. The preset time is 10s-60s, in this embodiment 30 s.

The conditions of violent movement or sudden falling can be identified through the first acceleration data, so in the embodiment, after the first acceleration data exceeds the threshold value, the basic data of the human body is sent to the server through the mobile phone terminal.

When the mobile phone end is not in a static state, the probability that the user carries the mobile phone end and the intelligent terminal is high, the second acceleration data and the human body basic data are sent to the server, and the server can correct the first acceleration data or judge whether the first acceleration data is abnormal or not and whether the motion acquisition module works normally or not based on the second acceleration data.

If the mobile phone end is in a static state, the probability that the user does not carry the mobile phone end is high, the user does not check prompt information within preset time, the possibility that the user falls down to cause the user to be unable to move to the mobile phone exists, early warning information is generated and sent to the server at the moment, the follow-up server can process the human body basic data corresponding to the intelligent terminal preferentially, and emergency contacts are informed in time.

The above are merely examples of the present invention, and the present invention is not limited to the field related to this embodiment, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein too much, and those skilled in the art can know all the common technical knowledge in the technical field before the application date or the priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date, and those skilled in the art can combine their own ability to perfect and implement the scheme, and some typical known structures or known methods should not become barriers to the implementation of the present invention by those skilled in the art in light of the teaching provided in the present application. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. A multifunctional human health data acquisition system comprises a server and an intelligent terminal; the server is connected with the intelligent terminal through Bluetooth, and the intelligent terminal is used for collecting basic human body data and sending the basic human body data to the server in real time;

2. The multifunctional human health data acquisition system of claim 1, wherein: the mobile phone terminal is connected with the server through WIFI, and used for waking up after the prompt tone is collected and establishing Bluetooth connection with the intelligent terminal after the prompt tone is woken up; and acquiring human body basic data from the intelligent terminal and sending the human body basic data to the server.

3. The multifunctional human health data acquisition system of claim 2, wherein: the human body basic data comprise electrocardiosignals, temperature information and motion information.

4. The multifunctional human health data acquisition system of claim 3, wherein: the intelligent terminal comprises an electrocardio acquisition module, a Bluetooth module and a processing module, wherein the electrocardio module is used for acquiring electrocardiosignals, the processing module is used for sending the electrocardiosignals to a server through the Bluetooth module, and the server is used for filtering the electrocardiosignals and calculating the heart rate of a human body based on the filtered electrocardiosignals.

5. The multifunctional human health data acquisition system of claim 4, wherein: the motion information comprises angle data and first acceleration data; the device also comprises a motion acquisition module used for acquiring angle data and first acceleration data; the processing module is used for controlling the Bluetooth module to send the angle data and the first acceleration data to the server, and the server is used for calculating the motion state according to the angle data and the first acceleration data.

6. The multifunctional human health data acquisition system of claim 6, wherein: the processing module is used for judging whether the temperature information exceeds a threshold value or not, and if the temperature information exceeds the threshold value, a prompt tone is played.

7. The multifunctional human health data acquisition system of claim 4, wherein: the filtering process adopts IIR digital filtering, median filtering or average filtering.

8. The multifunctional human health data acquisition system of claim 6, wherein: the processing module is used for judging whether the first acceleration data exceeds a threshold value or not, and playing a prompt tone if the first acceleration data exceeds the threshold value.

9. The multifunctional human health data acquisition system of claim 8, wherein: the mobile phone end is further used for acquiring second acceleration data, after the mobile phone end acquires the human basic data through the Bluetooth module, whether the mobile phone end is in a static state or not is judged based on the second acceleration data, and if the mobile phone end is not in the static state, the second acceleration data and the human basic data are sent to the server.