CN109480797B - Intelligent health auxiliary system based on health bracelet - Google Patents

Abstract

The invention discloses an intelligent health auxiliary system based on a health bracelet, which comprises blood oxygen detection equipment, blood pressure detection equipment, blood sugar detection equipment, a data transmission module, a timing module and the health bracelet, wherein the blood oxygen detection equipment is connected with the blood pressure detection equipment; the health bracelet is characterized by comprising a controller, a display, a comparison module, a heart rate detection module, an input module, a step counting unit and a memory; the method comprises the steps that firstly, an inertia observation and analysis stage is started according to a timing module, and blood oxygen detection equipment, blood pressure detection equipment, blood sugar detection equipment and a health bracelet are used in the inertia observation and analysis stage; can carry out real-time detection to user's blood oxygen, blood pressure, rhythm of the heart and blood sugar, simultaneously through the upper limit value that sets up in advance, monitor user's the exercise condition with the help of the meter step unit in the healthy bracelet, simultaneously according to the real-time change of each data of user when taking exercise, whether reach the default, when reaching the default, acquire the step information this moment to with this step information definition for step upper limit information.

Description

Intelligent health auxiliary system based on health bracelet

Technical Field

The invention belongs to the field of health, relates to a health bracelet, and particularly relates to an intelligent health auxiliary system based on the health bracelet.

Background

Healthy bracelet is intelligent bracelet promptly, and intelligent bracelet is a wear-type smart machine. Through intelligent bracelet, the user can take notes real-time data such as exercise, sleep, part still have diet among the daily life to with these data and cell-phone, flat board, ipodotouch synchronization, play the effect of instructing healthy life through data.

The science and technology product that receives the user to pay close attention to is equipped with at present to the intelligence bracelet, and the powerful function that it possessed just quietly permeates and changes people's life. The built-in battery can last for 10 days, the vibration motor is very practical, and the simple design style can also play a role in decoration of the ornament.

The design style of the smart bracelet is quite attractive to users who are accustomed to wearing jewelry. More importantly, the design style of the bracelet can be called joker. Moreover, the function of the small bracelet is stronger when the small bracelet is not seen, for example, the small bracelet is a high-grade pedometer, has the functions of general step counting of a common pedometer, distance measurement, calorie measurement, fat measurement and the like, and also has special functions of sleep monitoring, high-grade water prevention, Bluetooth data transmission, fatigue reminding and the like.

However, the current health bracelet cannot perform intelligent health assistance for users, particularly for some people older and who like to exercise, exercise duration of the people older needs to be controlled to a certain extent, excessive exercise cannot be performed, the excessive exercise does not help the health of the people older and causes certain harm, and therefore people need to plan certain exercise; in order to solve the above-mentioned drawbacks, a solution is now provided.

Disclosure of Invention

The invention aims to provide an intelligent health auxiliary system based on a health bracelet.

The purpose of the invention can be realized by the following technical scheme:

an intelligent health auxiliary system based on a health bracelet comprises blood oxygen detection equipment, blood pressure detection equipment, blood glucose detection equipment, a data transmission module, a timing module and the health bracelet; the health bracelet comprises a controller, a display, a comparison module, a heart rate detection module, an input module, a step counting unit and a memory;

the blood oxygen detection device, the blood pressure detection device and the blood sugar detection device are sequentially used for detecting blood oxygen information, blood pressure information and blood sugar information of a user and transmitting the blood oxygen information, the blood pressure information and the blood sugar information to the data transmission module; the blood oxygen detection device, the blood pressure detection device and the blood sugar detection device are connected with the controller through a data transmission module, and the data transmission module is wirelessly connected with the controller through Bluetooth;

the step counting unit is used for detecting the step information of walking of the user in real time and transmitting the step information to the controller; the heart rate detection module is used for detecting heart rate information of a user in real time and transmitting the heart rate information to the controller; the input module is used for inputting basic information by a user, wherein the basic information comprises age information and gender information;

the memory stores preset safe heart rate information, safe blood oxygen information, safe blood pressure information and safe blood sugar information;

the timing module is used for counting down the preset time and transmitting a detection command to the data transmission module when the timing is finished;

the data transmission module transmits blood oxygen information, blood pressure information and analysis signals to the controller when not receiving the detection command transmitted by the timing module, the controller performs inertia analysis when receiving the analysis signals transmitted by the data transmission module, and the specific analysis steps are as follows:

the method comprises the following steps: acquiring step number information;

step two: when the step number information is continuously changed and the duration time is greater than a preset value T1, the user is indicated to be doing exercise; continuously recording the step number information of the user; and performing data analysis, specifically:

s1: acquiring real-time heart rate information, blood oxygen information and blood pressure information of a user in motion, and sequentially marking the heart rate information, the blood oxygen information and the blood pressure information as L, Y and P;

s2: acquiring safe heart rate information, safe blood oxygen information and safe blood pressure information stored in a storage module, and sequentially marking the safe heart rate information, the safe blood oxygen information and the safe blood pressure information as La, Ya and Pa;

s3: calculating a security value of the user according to L, Y and P in real time, because L, Y and P have different influences on the security value of the user, influence values X1, X2 and X3 are added, X1+ X2+ X3 is 1, and X1> X2> X3; calculating a safety value Q ═ (L-La) × 1+ (Y-Ya) × 2+ (P-Pa) × 3 by using a formula;

s4: when Q is larger than or equal to a preset value X4, judging that the movement of the user reaches an upper limit at the moment, recording the information of the number of steps at the moment, and marking the information as the information of the upper limit of the number of steps;

s5: when the step number information does not continuously change, the analysis is finished;

step three: in the inertia analysis stage, as long as the user step number information is continuously changed again and the duration is longer than a preset value T1, repeating the data analysis in the second step to obtain a plurality of step number upper limit information and calculating an average value, and marking the average value as a standard step number upper limit;

the controller is used for transmitting the upper limit of the standard step number to the memory for real-time storage;

and the data transmission module transmits the blood sugar information to the comparison module when receiving the detection command transmitted by the timing module.

Further, the continuous variation of the step number information can be defined as the increase value of the step number information per minute is larger than a preset value.

Further, the data transmission module transmits a comparison signal to the controller when receiving the detection command transmitted by the timing module;

the controller is used for comparing the real-time step number information with the standard step number upper limit in the memory, transmitting stop information to the display when the real-time step number information is equal to the standard step number upper limit, and the display receives the stop information transmitted by the controller and displays that the step number reaches the upper limit and please rest.

Further, the comparison module receives the blood sugar information transmitted by the data transmission module and compares the blood sugar information with the safe blood sugar information in the memory, the comparison module transmits an abnormal signal to the controller when the blood sugar information is greater than or equal to the safe blood sugar information, and the controller transmits abnormal information to the display when receiving the abnormal signal transmitted by the comparison module;

the display receives the abnormal information transmitted by the controller and displays 'data is abnormal, please see doctor as soon as possible'.

The invention has the beneficial effects that:

the method comprises the steps that firstly, an inertia observation and analysis stage is started according to a timing module, and blood oxygen detection equipment, blood pressure detection equipment, blood sugar detection equipment and a health bracelet are used in the inertia observation and analysis stage; can carry out real-time detection to user's blood oxygen, blood pressure, rhythm of the heart and blood sugar, simultaneously through the upper limit value that sets up in advance, simultaneously monitor user's the exercise condition with the help of the meter step unit in the healthy bracelet, simultaneously according to the real-time change of each data of user when taking exercise, whether reach the default, when reaching the default, acquire the step information this moment, and define this step information as step upper limit information, follow-up entering monitoring phase when timing module timing finishes, when user monitoring phase takes exercise, in case user's step information reaches the upper limit then reminds the user to have a rest.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block diagram of the system of the present invention.

Detailed Description

As shown in fig. 1, an intelligent health assistance system based on a health bracelet includes a blood oxygen detection device, a blood pressure detection device, a blood glucose detection device, a data transmission module, a timing module and a health bracelet; the health bracelet comprises a controller, a display, a comparison module, a heart rate detection module, an input module, a step counting unit and a memory;

the blood oxygen detection device, the blood pressure detection device and the blood sugar detection device are sequentially used for detecting blood oxygen information, blood pressure information and blood sugar information of a user and transmitting the blood oxygen information, the blood pressure information and the blood sugar information to the data transmission module; the blood oxygen detection device, the blood pressure detection device and the blood sugar detection device are connected with the controller through a data transmission module, and the data transmission module is wirelessly connected with the controller through Bluetooth;

the step counting unit is used for detecting the step information of walking of the user in real time and transmitting the step information to the controller; the heart rate detection module is used for detecting heart rate information of a user in real time and transmitting the heart rate information to the controller; the input module is used for inputting basic information by a user, wherein the basic information comprises age information and gender information;

the memory stores preset safe heart rate information, safe blood oxygen information, safe blood pressure information and safe blood sugar information;

the timing module is used for counting down the preset time and transmitting a detection command to the data transmission module when the timing is finished;

the data transmission module transmits blood oxygen information, blood pressure information and analysis signals to the controller when not receiving the detection command transmitted by the timing module, the controller performs inertia analysis when receiving the analysis signals transmitted by the data transmission module, and the specific analysis steps are as follows:

the method comprises the following steps: acquiring step number information;

step two: when the step number information is continuously changed and the duration time is greater than a preset value T1, the user is indicated to be doing exercise; continuously recording the step number information of the user; and performing data analysis, specifically:

s1: acquiring real-time heart rate information, blood oxygen information and blood pressure information of a user in motion, and sequentially marking the heart rate information, the blood oxygen information and the blood pressure information as L, Y and P;

s2: acquiring safe heart rate information, safe blood oxygen information and safe blood pressure information stored in a storage module, and sequentially marking the safe heart rate information, the safe blood oxygen information and the safe blood pressure information as La, Ya and Pa;

s3: calculating a security value of the user according to L, Y and P in real time, because L, Y and P have different influences on the security value of the user, influence values X1, X2 and X3 are added, X1+ X2+ X3 is 1, and X1> X2> X3; calculating a safety value Q ═ (L-La) × 1+ (Y-Ya) × 2+ (P-Pa) × 3 by using a formula;

s4: when Q is larger than or equal to a preset value X4, judging that the movement of the user reaches an upper limit at the moment, recording the information of the number of steps at the moment, and marking the information as the information of the upper limit of the number of steps;

s5: when the step number information does not continuously change, the analysis is finished;

step three: in the inertia analysis stage, as long as the user step number information is continuously changed again and the duration is longer than a preset value T1, repeating the data analysis in the second step to obtain a plurality of step number upper limit information and calculating an average value, and marking the average value as a standard step number upper limit;

the controller is used for transmitting the upper limit of the standard step number to the memory for real-time storage;

and the data transmission module transmits the blood sugar information to the comparison module when receiving the detection command transmitted by the timing module.

Further, the continuous variation of the step number information can be defined as the increase value of the step number information per minute is larger than a preset value.

Further, the data transmission module transmits a comparison signal to the controller when receiving the detection command transmitted by the timing module;

the controller is used for comparing the real-time step information with the standard step upper limit in the memory when detecting that the step information of the user continuously changes again and the duration is greater than a preset value T1, transmitting stop information to the display when the real-time step information is equal to the standard step upper limit, and the display receives the stop information transmitted by the controller and displays that the step number reaches the upper limit and please rest.

Further, the comparison module receives the blood sugar information transmitted by the data transmission module and compares the blood sugar information with the safe blood sugar information in the memory, the comparison module transmits an abnormal signal to the controller when the blood sugar information is greater than or equal to the safe blood sugar information, and the controller transmits abnormal information to the display when receiving the abnormal signal transmitted by the comparison module;

the display receives the abnormal information transmitted by the controller and displays 'data is abnormal, please see doctor as soon as possible'.

An intelligent health auxiliary system based on a health bracelet, during working, firstly entering an inertia observation and analysis stage according to a timing module, and passing through a blood oxygen detection device, a blood pressure detection device, a blood sugar detection device and the health bracelet at the stage; can carry out real-time detection to user's blood oxygen, blood pressure, rhythm of the heart and blood sugar, simultaneously through the upper limit value that sets up in advance, simultaneously monitor user's the exercise condition with the help of the meter step unit in the healthy bracelet, simultaneously according to the real-time change of each data of user when taking exercise, whether reach the default, when reaching the default, acquire the step information this moment, and define this step information as step upper limit information, follow-up entering monitoring phase when timing module timing finishes, when user monitoring phase takes exercise, in case user's step information reaches the upper limit then reminds the user to have a rest.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (4)

1. An intelligent health auxiliary system based on a health bracelet comprises blood oxygen detection equipment, blood pressure detection equipment, blood glucose detection equipment, a data transmission module, a timing module and the health bracelet; the health bracelet is characterized by comprising a controller, a display, a comparison module, a heart rate detection module, an input module, a step counting unit and a memory;

the blood oxygen detection device, the blood pressure detection device and the blood sugar detection device are sequentially used for detecting blood oxygen information, blood pressure information and blood sugar information of a user and transmitting the blood oxygen information, the blood pressure information and the blood sugar information to the data transmission module; the blood oxygen detection device, the blood pressure detection device and the blood sugar detection device are connected with the controller through a data transmission module, and the data transmission module is wirelessly connected with the controller through Bluetooth;

the step counting unit is used for detecting the step information of walking of the user in real time and transmitting the step information to the controller; the heart rate detection module is used for detecting heart rate information of a user in real time and transmitting the heart rate information to the controller; the input module is used for inputting basic information by a user, wherein the basic information comprises age information and gender information;

the memory stores preset safe heart rate information, safe blood oxygen information, safe blood pressure information and safe blood sugar information;

the timing module is used for counting down the preset time and transmitting a detection command to the data transmission module when the timing is finished;

the data transmission module transmits blood oxygen information, blood pressure information and analysis signals to the controller when not receiving the detection command transmitted by the timing module, the controller performs inertia analysis when receiving the analysis signals transmitted by the data transmission module, and the specific analysis steps are as follows:

the method comprises the following steps: acquiring step number information;

step two: when the step number information is continuously changed and the duration time is greater than a preset value T1, the user is indicated to be doing exercise; continuously recording the step number information of the user; and performing data analysis, specifically:

s1: acquiring real-time heart rate information, blood oxygen information and blood pressure information of a user in motion, and sequentially marking the heart rate information, the blood oxygen information and the blood pressure information as L, Y and P;

s2: acquiring safe heart rate information, safe blood oxygen information and safe blood pressure information stored in a storage module, and sequentially marking the safe heart rate information, the safe blood oxygen information and the safe blood pressure information as La, Ya and Pa;

s3: calculating a security value of the user according to L, Y and P in real time, because L, Y and P have different influences on the security value of the user, influence values X1, X2 and X3 are added, X1+ X2+ X3 is 1, and X1> X2> X3; calculating a safety value Q ═ (L-La) × 1+ (Y-Ya) × 2+ (P-Pa) × 3 by using a formula;

s4: when Q is larger than or equal to a preset value X4, judging that the movement of the user reaches an upper limit at the moment, recording the information of the number of steps at the moment, and marking the information as the information of the upper limit of the number of steps;

s5: when the step number information does not continuously change, the analysis is finished;

step three: in the inertia analysis stage, as long as the user step number information is continuously changed again and the duration is longer than a preset value T1, repeating the data analysis in the second step to obtain a plurality of step number upper limit information and calculating an average value, and marking the average value as a standard step number upper limit;

the controller is used for transmitting the upper limit of the standard step number to the memory for real-time storage;

and the data transmission module transmits the blood sugar information to the comparison module when receiving the detection command transmitted by the timing module.

2. The intelligent health assistance system based on a health bracelet of claim 1, wherein the continuous change of the step information is defined as the increase of the step information per minute is larger than a preset value.

3. The intelligent health assistance system based on a health bracelet of claim 1, wherein the data transmission module transmits a comparison signal to the controller when receiving a detection command transmitted by the timing module;

the controller is used for comparing the real-time step number information with the standard step number upper limit in the memory, transmitting stop information to the display when the real-time step number information is equal to the standard step number upper limit, and the display receives the stop information transmitted by the controller and displays that the step number reaches the upper limit and please rest.

4. The intelligent health assistance system based on the health bracelet of claim 1, wherein the comparison module receives the blood glucose information transmitted by the data transmission module and compares the blood glucose information with the safe blood glucose information in the memory, the comparison module transmits an abnormal signal to the controller when the blood glucose information is greater than or equal to the safe blood glucose information, and the controller transmits abnormal information to the display when receiving the abnormal signal transmitted by the comparison module;

the display receives the abnormal information transmitted by the controller and displays 'data is abnormal, please see doctor as soon as possible'.

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