CN113706823B - Automatic nursing alarm system based on intelligent old age nursing and processing method thereof - Google Patents

Abstract

The invention discloses an automatic nursing and alarming system based on intelligent old age nursing, which comprises a portable wrist strap, wherein a heart rate monitoring module, a blood pressure monitoring module and a three-axis gyroscope module are arranged on the portable wrist strap, a microprocessor module, a communication module, an acousto-optic alarm module and a reset button are also arranged on the portable wrist strap, the heart rate monitoring module, the blood pressure monitoring module and the three-axis gyroscope module are respectively in communication connection with the microprocessor module, and the microprocessor module is respectively in communication connection with the communication module and the acousto-optic alarm module. The invention can improve the defects of the prior art and improve the monitoring real-time performance and the monitoring accuracy of the automatic nursing alarm system.

Description

Automatic nursing alarm system based on intelligent old age nursing and processing method thereof

Technical Field

The invention relates to the technical field of intelligent endowment, in particular to an automatic nursing alarm system based on intelligent endowment and a processing method thereof.

Background

With the development of intelligent devices, automatic nursing devices for elderly people and some patients who need to be cared for are also becoming popular. The existing automatic nursing device usually monitors the physiological signs of the user and then compares the physiological signs with sample data designed in advance to judge whether an abnormality occurs. The mode needs to collect a large amount of sample data for operation processing, the later comparison operation amount is large, and meanwhile, the sample data collected in the earlier period may not be in accordance with the actual use environment of a user, so that the sample comparison accuracy is poor.

Disclosure of Invention

The invention aims to provide an automatic nursing alarm system based on intelligent nursing for the aged and a processing method thereof, which can solve the defects of the prior art and improve the monitoring real-time performance and the monitoring accuracy of the automatic nursing alarm system.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows.

An automatic nursing alarm system based on intelligent old age nursing comprises,

the portable wrist strap is provided with a heart rate monitoring module, a blood pressure monitoring module and a three-axis gyroscope module; the heart rate monitoring module is used for monitoring the heart rate of a wearer, the blood pressure monitoring module is used for monitoring the blood pressure of the wearer, and the three-axis gyroscope module is used for monitoring the body state of the wearer;

the portable wristband is also provided with a microprocessor module, a communication module, an acousto-optic alarm module and a reset button, the heart rate monitoring module, the blood pressure monitoring module and the three-axis gyroscope module are respectively in communication connection with the microprocessor module, and the microprocessor module is respectively in communication connection with the communication module and the acousto-optic alarm module; the microprocessor module is used for analyzing the heart rate of a wearer, the blood pressure and the body state, the microprocessor module simultaneously sends the heart rate of the wearer, the blood pressure and the body state data to the remote control terminal through the communication module, the microprocessor module controls the sound-light alarm module to give an alarm when the condition of meeting the alarm condition occurs, and simultaneously informs the remote control terminal of the alarm information, the remote control terminal analyzes the received data, when the condition of the suspected alarm condition occurs, the remote control terminal sends alarm information to the microprocessor module through the communication module, the microprocessor module sends the alarm information through the sound-light alarm module, if the wearer does not have abnormity, the alarm is eliminated through the reset button, if the duration time of the alarm information exceeds a set threshold value, the condition of meeting the alarm condition is judged to occur, the microprocessor module controls the sound-light alarm module to give an alarm, and meanwhile informs the remote control terminal of the alarm information.

A control method of the automatic nursing alarm system based on intelligent old age nursing comprises the following steps:

A. the heart rate monitoring module monitors the heart rate of a wearer, the blood pressure monitoring module monitors the blood pressure of the wearer, and the three-axis gyroscope module detects the body state of the wearer;

B. the heart rate monitoring module, the blood pressure monitoring module and the three-axis gyroscope module send monitoring data to the microprocessor module, the microprocessor module analyzes the heart rate, the blood pressure and the body state of a wearer, and the microprocessor module simultaneously sends the heart rate, the blood pressure and the body state data of the wearer to the remote control terminal through the communication module;

C. when the condition that the alarm condition is met occurs, the microprocessor module controls the sound-light alarm module to give an alarm and informs the alarm information to a remote control terminal;

D. the remote control terminal analyzes the received data, when a suspected alarm condition occurs, the remote control terminal sends alarm information to the microprocessor module through the communication module, the microprocessor module sends the alarm information through the sound-light alarm module, if the wearer is not abnormal, the alarm is eliminated through the reset button, if the duration time of the alarm information exceeds a set threshold value, the situation meeting the alarm condition is judged to occur, the microprocessor module controls the sound-light alarm module to give an alarm, and meanwhile, the alarm information is notified to the remote control terminal.

Preferably, in step B, the microprocessor module analyzing the heart rate, blood pressure and physical state of the wearer comprises the steps of,

b1, setting an alarm threshold value for the heart rate and blood pressure data, and extracting a data segment exceeding the alarm threshold value;

and B2, monitoring the static state time length of the body state data, and if the static state time length exceeds 10s, extracting the vertical downward speed average value of the body state data in a 1s time period before the static state time period.

Preferably, the alarm condition in step C is,

the continuous time of the data segment with the heart rate and/or blood pressure exceeding the alarm threshold value exceeds 15s;

or, the vertical downward velocity average of the body state data within a period of 1s before the extracted still state period exceeds 1.5m/s.

Preferably, the analyzing of the received data by the remote control terminal in step D includes the steps of,

d1, setting a score indicator, wherein the score indicator is initially divided into 0 points and fully divided into 100 points; setting the normal fluctuation range of the heart rate and the blood pressure according to the physical condition of the wearer;

d2, when the received heart rate or blood pressure data exceeds the normal fluctuation range set in the step D1, adding a score into the scoring device, wherein the added score is in direct proportion to the amplitude, the frequency and the duration of the data exceeding the normal fluctuation range; when the heart rate and the blood pressure data exceed the normal fluctuation range at the same time, adding the scores added into the scoring device;

d3, determining a normal fluctuation range and a duration of the body motion acceleration according to the received body state historical data, and extracting repeated body motion characteristic curve segments from the received body state historical data;

and D4, when the body motion acceleration data exceeds the normal fluctuation range determined in the step D3, the duration exceeds a set value, and no body motion characteristic curve segment appears in the short duration, adding a score into the scoring device, wherein the added score is in direct proportion to the actual duration.

Preferably, in step D, the suspected alarm condition is,

when the score indicator reaches 100 points;

alternatively, the score of the scorer exceeds 80 points for at least 30s and the score continues to increase.

The beneficial effect that adopts above-mentioned technical scheme to bring lies in: the invention divides the whole nursing alarm system into two stages for carrying out grading monitoring on the real-time state of a user. The microprocessor module on the wrist strap is used for realizing first-level monitoring, the first-level monitoring is used for processing the high-priority alarm condition in real time, and real-time processing of the monitoring end is realized by simplifying the information processing flow and the alarm condition. The second-level monitoring is realized through a remote control terminal, and the more complex alarm state is analyzed and processed. In the analysis process, the incidence relation among different types of data is simplified by adopting a score accumulation mode, so that a large amount of sample operation processing is not required in advance, and the data processing can be completed completely depending on the data of a user. And the efficiency of the whole treatment process is greatly improved.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present invention.

Detailed Description

Referring to fig. 1, one embodiment of the present invention includes,

the portable wrist strap is provided with a heart rate monitoring module 1, a blood pressure monitoring module 2 and a three-axis gyroscope module 3; the heart rate monitoring module 1 is used for monitoring the heart rate of a wearer, the blood pressure monitoring module 2 is used for monitoring the blood pressure of the wearer, and the three-axis gyroscope module 3 is used for monitoring the body state of the wearer;

the portable wristband is further provided with a microprocessor module 4, a communication module 5, an acousto-optic alarm module 6 and a reset button 7, the heart rate monitoring module 1, the blood pressure monitoring module 2 and the triaxial gyroscope module 3 are respectively in communication connection with the microprocessor module 4, and the microprocessor module 4 is respectively in communication connection with the communication module 5 and the acousto-optic alarm module 6; the microprocessor module 4 is used for analyzing the heart rate, the blood pressure and the body state of a wearer, the microprocessor module 4 simultaneously sends the heart rate, the blood pressure and the body state data of the wearer to the remote control terminal 8 through the communication module 5, the microprocessor module 4 controls the acousto-optic alarm module 6 to give an alarm when the condition of meeting the alarm condition occurs, meanwhile, the alarm information is notified to the remote control terminal 8, the remote control terminal 8 analyzes the received data, when the condition of the suspected alarm condition occurs, the remote control terminal 8 sends alarm information to the microprocessor module 4 through the communication module 5, the microprocessor module 4 sends the alarm information through the acousto-optic alarm module 6, if the wearer does not have abnormity, the alarm is eliminated through the reset button 7, if the duration time of the alarm information exceeds the set threshold value, the condition of meeting the alarm condition is judged to occur, the microprocessor module 4 controls the acousto-optic alarm module 6 to give an alarm, and meanwhile, the alarm information is notified to the remote control terminal 8.

A control method of the automatic nursing alarm system based on intelligent old age nursing comprises the following steps:

A. the heart rate monitoring module 1 monitors the heart rate of a wearer, the blood pressure monitoring module 2 monitors the blood pressure of the wearer, and the three-axis gyroscope module 3 detects the body state of the wearer;

B. the heart rate monitoring module 1, the blood pressure monitoring module 2 and the three-axis gyroscope module 3 send monitoring data to the microprocessor module 4, the microprocessor module 4 analyzes the heart rate, the blood pressure and the body state of a wearer, and the microprocessor module 4 simultaneously sends the heart rate, the blood pressure and the body state data of the wearer to the remote control terminal 8 through the communication module 5;

C. when the condition of meeting the alarm condition occurs, the microprocessor module 4 controls the sound-light alarm module 6 to alarm and simultaneously informs the alarm information to the remote control terminal 8;

D. the remote control terminal 8 analyzes the received data, when a suspected alarm condition occurs, the remote control terminal 8 sends alarm information to the microprocessor module 4 through the communication module 5, the microprocessor module 4 sends the alarm information through the sound-light alarm module 6, if the wearer is not abnormal, the alarm is eliminated through the reset button 7, if the duration time of the alarm information exceeds a set threshold value, the situation meeting the alarm condition is judged to occur, the microprocessor module 4 controls the sound-light alarm module 6 to give an alarm, and meanwhile, the alarm information is notified to the remote control terminal 8.

In step B, the microprocessor module 4 analyzing the heart rate, blood pressure and body state of the wearer comprises the following steps,

b1, setting an alarm threshold value for heart rate and blood pressure data, and extracting a data segment exceeding the alarm threshold value;

and B2, monitoring the static state time length of the body state data, and if the static state time length exceeds 10s, extracting the vertical downward speed average value of the body state data in a 1s time period before the static state time period.

In the step C, the alarm condition is that,

the continuous duration of the data segment with the heart rate and/or blood pressure exceeding the alarm threshold exceeds 15s;

or, the vertical downward velocity average of the body state data within a period of 1s before the extracted still state period exceeds 1.5m/s.

In step D, the analysis of the received data by the remote control terminal 8 comprises the steps of,

d1, setting a score indicator, wherein the score indicator is initially divided into 0 points and fully divided into 100 points; setting the normal fluctuation range of the heart rate and the blood pressure according to the physical condition of a wearer;

d2, when the received heart rate or blood pressure data exceeds the normal fluctuation range set in the step D1, adding a score into the scoring device, wherein the added score is in direct proportion to the amplitude, frequency and duration of the data exceeding the normal fluctuation range; when the heart rate and the blood pressure data exceed the normal fluctuation range at the same time, adding the scores added into the scoring device;

d3, determining a normal fluctuation range and a duration of the body motion acceleration according to the received body state historical data, and extracting repeated body motion characteristic curve segments from the received body state historical data;

d4, when the body motion acceleration data exceeds the normal fluctuation range determined in the step D3, the duration exceeds a set value, and no body motion characteristic curve segment appears in the short duration, adding a score into the scoring device, wherein the added score is in direct proportion to the actual duration.

The invention has high detection and alarm accuracy, is convenient for old people and patients with inconvenient actions to wear and use, and can effectively reduce the workload of manual nursing.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. A control method of an automatic nursing alarm system based on intelligent endowment comprises the following steps,

the portable wrist strap is provided with a heart rate monitoring module (1), a blood pressure monitoring module (2) and a three-axis gyroscope module (3); the heart rate monitoring module (1) is used for monitoring the heart rate of a wearer, the blood pressure monitoring module (2) is used for monitoring the blood pressure of the wearer, and the three-axis gyroscope module (3) is used for monitoring the body state of the wearer;

the portable wristband is further provided with a microprocessor module (4), a communication module (5), an audible and visual alarm module (6) and a reset button (7), the heart rate monitoring module (1), the blood pressure monitoring module (2) and the triaxial gyroscope module (3) are respectively in communication connection with the microprocessor module (4), and the microprocessor module (4) is respectively in communication connection with the communication module (5) and the audible and visual alarm module (6); the microprocessor module (4) is used for analyzing the heart rate, the blood pressure and the body state of a wearer, the microprocessor module (4) simultaneously sends the heart rate, the blood pressure and the body state data of the wearer to the remote control terminal (8) through the communication module (5), when the condition meeting the alarm condition occurs, the microprocessor module (4) controls the sound-light alarm module (6) to give an alarm, the alarm information is simultaneously notified to the remote control terminal (8), the remote control terminal (8) analyzes the received data, when the condition meeting the suspected alarm condition occurs, the remote control terminal (8) sends alarm information to the microprocessor module (4) through the communication module (5), the microprocessor module (4) sends the alarm information through the sound-light alarm module (6), if the wearer does not have abnormity, the alarm is eliminated through the reset button (7), if the duration time of the alarm information exceeds a set threshold value, the condition meeting the alarm condition is judged to occur, the microprocessor module (4) controls the sound-light alarm module (6) to give an alarm, and meanwhile, the alarm information is notified to the remote control terminal (8);

the method is characterized by comprising the following steps:

A. the heart rate monitoring module (1) monitors the heart rate of a wearer, the blood pressure monitoring module (2) monitors the blood pressure of the wearer, and the three-axis gyroscope module (3) detects the body state of the wearer;

B. the heart rate monitoring module (1), the blood pressure monitoring module (2) and the three-axis gyroscope module (3) send monitoring data to the microprocessor module (4), the microprocessor module (4) analyzes the heart rate, the blood pressure and the body state of a wearer, and the microprocessor module (4) simultaneously sends the heart rate, the blood pressure and the body state data of the wearer to the remote control terminal (8) through the communication module (5);

C. when the condition meeting the alarm condition occurs, the microprocessor module (4) controls the sound-light alarm module (6) to alarm, and simultaneously informs the alarm information to the remote control terminal (8);

D. the remote control terminal (8) analyzes the received data, when a suspected alarm condition occurs, the remote control terminal (8) sends alarm information to the microprocessor module (4) through the communication module (5), the microprocessor module (4) sends the alarm information through the acousto-optic alarm module (6), if the wearer is not abnormal, the alarm is eliminated through the reset button (7), if the duration time of the alarm information exceeds a set threshold value, the situation meeting the alarm condition is judged to occur, the microprocessor module (4) controls the acousto-optic alarm module (6) to give an alarm, and meanwhile, the alarm information is notified to the remote control terminal (8);

the analysis of the received data by the remote control terminal (8) comprises the steps of,

d1, setting a score indicator, wherein the score indicator is initially divided into 0 minutes, and the full score is divided into 100 minutes; setting the normal fluctuation range of the heart rate and the blood pressure according to the physical condition of the wearer;

d2, when the received heart rate or blood pressure data exceeds the normal fluctuation range set in the step D1, adding a score into the scoring device, wherein the added score is in direct proportion to the amplitude, frequency and duration of the data exceeding the normal fluctuation range; when the heart rate and the blood pressure data exceed the normal fluctuation range at the same time, adding the scores added into the scoring device;

d3, determining a normal fluctuation range and duration of the body motion acceleration according to the received body state historical data, and extracting repeated body motion characteristic curve segments from the received body state historical data;

d4, adding a score into the scoring device when the body motion acceleration data exceeds the normal fluctuation range determined in the step D3, the duration exceeds a set value, and no body motion characteristic curve segment appears in the duration time period, wherein the added score is in direct proportion to the actual duration;

the suspected alarm condition in the step D is that,

when the score indicator reaches 100 points;

alternatively, the score of the scorer exceeds 80 points for at least 30s and the score continues to increase.

2. The intelligent care alarm system control method as claimed in claim 1, wherein: in step B, the microprocessor module (4) analyzes the heart rate, blood pressure and body state of the wearer comprises the following steps,

b1, setting an alarm threshold value for heart rate and blood pressure data, and extracting a data segment exceeding the alarm threshold value;

and B2, monitoring the static state time length of the body state data, and if the static state time length exceeds 10s, extracting the vertical downward speed average value of the body state data in a time period 1s before the static state time period.

3. The control method of the intelligent endowment-based automatic nursing alarm system according to claim 2, wherein: in the step C, the alarm condition is that,

the continuous time of the data segment with the heart rate and/or blood pressure exceeding the alarm threshold value exceeds 15s;

or, the average value of the vertical downward velocity of the body state data in the time period of 1s before the extracted still state time period exceeds 1.5m/s.

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