CN114403824A - Intelligent wearing-based continuous heart rate index monitoring system and method - Google Patents

Abstract

The invention discloses a continuous heart rate index monitoring system and method based on intelligent wearing, which relate to the field of intelligent wearing and comprise first acquisition equipment, second acquisition equipment, a time recording unit, a human body information acquisition module, a human body state acquisition module, a human body judgment module, a data receiving module, a data processing module, a master control module, an information sending module, a preset receiving end and an emergency receiving end; the first acquisition equipment is arranged at the chest of the monitored person and is used for acquiring first heart rate information, and the second acquisition equipment is arranged at the back of the monitored person and is used for acquiring second heart rate information; the time recording unit is used for timing operation and recording time information when the heart rate information is collected; the human body information acquisition module is used for acquiring basic information of a monitored person; the invention can better protect the safety of the monitored person and meet the actual use requirement.

Description

Intelligent wearing-based continuous heart rate index monitoring system and method

Technical Field

The invention relates to the field of intelligent wearing, in particular to a continuous heart rate index monitoring system and method based on intelligent wearing.

Background

The intelligent wearing equipment is a general name for applying wearing technology to intelligently design daily wearing and develop wearable equipment, such as watches, bracelets, glasses, clothes and the like. The coming era of wearable intelligent devices means the intelligent extension of people, and through the devices, people can better perceive external and self information, can process information more efficiently under the assistance of computers, networks and even other people, and can realize more seamless communication. The application field can be divided into two categories, namely self-quantification and in-vitro evolution, the intelligent wearing application range is wide, and the intelligent wearing application range can also be used in the heart rate index monitoring process of a human body;

the heart rate refers to the number of heartbeats per minute of a normal person in a quiet state, also called a quiet heart rate, and is generally 60-100 times/minute, and individual differences can be generated due to age, gender or other physiological factors. Generally, the smaller the age, the faster the heart rate, the slower the elderly than the young, and the faster the heart rate in women than in men of the same age, are normal physiological phenomena. Under the quiet state, the normal heart rate of an adult is 60-100 times/minute, the ideal heart rate is 55-70 times/minute, the state of the adult can be known through monitoring the heart rate of a human body, therefore, when the heart rate is abnormal, a warning is sent to a user, the safety of the user is protected, and the heart rate index monitoring system and method can be used in the heart rate monitoring process.

The conventional heart rate index monitoring system and method have the problems of low safety and single function in the using process, and the use of the heart rate index monitoring system and method brings certain influence, so that the continuous heart rate index monitoring system and method based on intelligent wearing are provided.

Disclosure of Invention

The embodiment of the application provides the continuous heart rate index monitoring system and method based on intelligent wearing, solves the technical problems of low safety and single function of the existing heart rate index monitoring system and method in the using process, achieves the purpose of better protecting the safety of users, and provides the continuous heart rate index monitoring system and method based on intelligent wearing.

The invention solves the technical problems through the following technical scheme, and the continuous heart rate index monitoring system based on intelligent wearing comprises a first acquisition device, a second acquisition device, a time recording unit, a human body information acquisition module, a human body state acquisition module, a human body judgment module, a data receiving module, a data processing module, a master control module, an information sending module, a preset receiving end and an emergency receiving end;

the first acquisition equipment is arranged at the chest of the monitored person and is used for acquiring first heart rate information, and the second acquisition equipment is arranged at the back of the monitored person and is used for acquiring second heart rate information;

the time recording unit is used for timing operation and recording time information when the heart rate information is collected;

the human body information acquisition module is used for acquiring basic information of a monitored person, wherein the basic information comprises age, gender and disease information, and the disease information comprises heart disease;

the human body state acquisition module is used for acquiring human body information, and the human body information comprises the horizontal movement speed of a human body and height change information of the human body;

the human body information sending human body judging module is used for processing the received human body information to generate human body judging information, and the human body judging information comprises general movement, medium movement, strong movement and lying;

the data receiving module is used for receiving the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information and sending the information to the data processing module;

the data processing module receives the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information, processes the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information, and generates heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information;

the general control module control information sending module sends the normal heart rate information, the abnormal heart rate information and the heart rate warning information to a preset receiving terminal, and simultaneously sends the dangerous personnel information to an emergency receiving terminal and synchronizes to an emergency center.

Further, the human body judgment module processes the received human body information, and the specific process of generating the human body judgment information is as follows:

the method comprises the following steps: extracting the collected human body information, and acquiring the horizontal moving speed of the human body and the height information of the human body from the human body information;

step two: marking the horizontal movement speed of the human body as V, marking the height information of the human body as H, continuously collecting the height information of the human body for x times within a preset time length, wherein x is more than or equal to 5, calculating the difference between H1 and Hx in pairs to obtain a plurality of height difference values Hx_{Difference (D)}；

Step three: when the horizontal moving speed V of the human body is less than the preset value or the height difference Hx_{Difference (D)}When the average value of the motion parameters is less than a preset value, the motion is a common motion;

step three: when the horizontal moving speed V of the human body is within the preset value range or the height difference Hx_{Difference (D)}When the average value of the human body is within the preset value range, the human body moves in a medium motion mode, and when the horizontal movement speed V of the human body is larger than the preset value, but the height difference Hx is larger than the preset value_{Difference (D)}When the average value of the height difference Hx is less than the preset value, the human body moves at a horizontal speed V less than the preset value, namely the human body moves at a medium speed, but the height difference Hx is smaller than the preset value_{Difference (D)}When the average value is larger than the preset value, the medium movement is performed;

step four: when the horizontal moving speed V of the human body is larger than the preset value and the height difference Hx_{Difference (D)}When the average value is larger than the preset value, the strong motion is performed;

step five: when the horizontal moving speed V of the human body is 0 and the change from H1 to Hx is less than the preset value, the human body lies down.

The data processing module processes the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information to generate heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information, and the specific process comprises the following steps:

s1: extracting the acquired basic information, processing the basic information to acquire the type information of the monitored person, extracting a normal heart rate index of a corresponding type, and marking the normal heart rate index as P;

s2: extracting first heart rate information and second heart rate information, marking the first heart rate information as Q1 and the second heart rate information as Q2, and calculatingThe mean between the first heart rate information Q1 and the second heart rate information Q2 yields a real-time heart rate value, which is labeled Q_{Fruit of Chinese wolfberry}；

S3: when the real-time information heart rate Q_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, human body judgment information is extracted, when the human body judgment information is strong motion, normal heart rate information is generated, and when the heart rate is real-time information Q_{Fruit of Chinese wolfberry}When the heart rate is larger than the early warning value, the heart rate abnormal information is generated, and when the heart rate is in real time_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s4: when the human body judges that the information is any one of general sports, medium sports and lying, the heart rate Q is real-time information_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, the heart rate abnormal information is generated, and when the heart rate is in real time, the heart rate Q is obtained_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s5: when the human body judges that the information is lying down, the heart rate Q is real-time information_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, abnormal heart rate information is generated, and when the heart rate is in real time, the heart rate Q is obtained_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s6: when real-time heart rate information Q_{Fruit of Chinese wolfberry}When the time is less than the preset value and exceeds the preset time, the personnel danger information is also generated.

Further, the specific process of processing the basic information to obtain the category information of the monitored person is as follows:

SS 1: extracting the acquired basic information, and acquiring age information, sex information and disease information of the monitored person;

SS 2: when the sex is male, it is classified into class a, and when the sex is female, it is classified into class B;

SS 3: when the age of class a is less than a preset age, it is class a1, when the age of class a is within a preset age range, it is class a2, when the age of class a is greater than a preset age, it is class A3;

SS 4; when the age of class B is less than a preset age, it is class B1, when the age of class B is within a preset age range, it is class B2, and when the age of class B is greater than the preset age, it is class B3;

SS 5: when disease information exists, whether the sex is male or female, the sex is classified into C type;

SS 6: and collecting the normal information of the crowd of the A class, the B class and the C class from the Internet.

The monitoring method is characterized in that the preset receiving end needs to stop the current movement of the monitored person after receiving the abnormal heart rate information, monitors the movement again after the movement is stopped for a preset time, and generates personnel danger information to be sent to the emergency receiving end when the abnormal heart rate information still exists in the secondary monitoring.

A continuous heart rate index monitoring method based on intelligent wearing comprises the following steps:

the method comprises the following steps: installing first acquisition equipment on the chest of a monitored person, and acquiring first heart rate information of the monitored person;

step two; the second acquisition equipment is arranged on the back of the monitored person and acquires second heart rate information of the monitored person;

step three: timing operation is carried out through a time recording unit, and time information when heart rate information is collected is recorded;

step four: the human body information acquisition module is used for acquiring basic information of a monitored person, and the human body state acquisition module is used for acquiring human body information;

step five: the human body judging module is used for processing the received human body information to generate human body judging information;

step six: processing the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information to generate heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information;

step seven: the general control module control information sending module sends the normal heart rate information, the abnormal heart rate information and the heart rate warning information to a preset receiving terminal, and simultaneously sends the dangerous information of the personnel to an emergency receiving terminal and synchronizes to an emergency center.

Compared with the prior art, the invention has the following advantages:

1. the continuous heart rate index monitoring system and method based on intelligent wearing have the advantages that the monitored people are classified before monitoring, normal data corresponding to the types of people are collected from the Internet to serve as comparison data, accuracy of the monitoring data is guaranteed, the situation that the monitored people are accidentally caused by large monitoring deviation is effectively avoided, safety of the monitored people can be better protected, the problems that monitoring data errors are large due to unified reference data in the prior art, warning information cannot be timely sent out when the heart rate of the monitored people is abnormal, and the monitored people are injured are effectively solved, and monitoring accuracy of the system and method is greatly improved;

2. meanwhile, the heart rate information of the monitored person in different motion states is collected in real time, when the heart rate is abnormal in the motion process of the monitored person, warning information is sent out in time to remind the monitored person, so that the safety of the monitored person is better protected, meanwhile, the monitored person is not displayed, personnel danger information is sent out in time to an emergency receiving end and meanwhile, the monitored person is rescued, when the monitored person is dangerous, the monitored person can be timely treated, the life safety of the monitored person is further protected, and the problem that the existing monitoring system and method only have the heart rate monitoring function and the simple notification function and cannot meet the actual use requirement is effectively solved.

Drawings

Fig. 1 is a functional block diagram of the system in the present embodiment.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

The embodiment of the application provides a continuous heart rate index monitoring system and method based on intelligent wearing, solves the technical problems of low safety and single function in the using process of the existing heart rate index monitoring system and method, and achieves the purpose of better protecting the safety of users.

As shown in fig. 1, the present embodiment provides a technical solution: the intelligent wearing-based continuous heart rate index monitoring system and method comprises a first acquisition device, a second acquisition device, a time recording unit, a human body information acquisition module, a human body state acquisition module, a human body judgment module, a data receiving module, a data processing module, a master control module, an information sending module, a preset receiving terminal and an emergency receiving terminal;

the first acquisition equipment is arranged at the chest of the monitored person and is used for acquiring first heart rate information, and the second acquisition equipment is arranged at the back of the monitored person and is used for acquiring second heart rate information;

the time recording unit is used for timing operation and recording time information when the heart rate information is collected;

the human body information acquisition module is used for acquiring basic information of a monitored person, wherein the basic information comprises age, gender and disease information, and the disease information comprises heart disease;

the human body state acquisition module is used for acquiring human body information, and the human body information comprises the horizontal movement speed of a human body and height change information of the human body;

the human body information sending human body judging module is used for processing the received human body information to generate human body judging information, and the human body judging information comprises general movement, medium movement, strong movement and lying;

the data receiving module is used for receiving the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information and sending the information to the data processing module;

the data processing module receives the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information, processes the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information, and generates heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information;

the general control module control information sending module sends the normal heart rate information, the abnormal heart rate information and the heart rate warning information to a preset receiving terminal, and simultaneously sends the dangerous personnel information to an emergency receiving terminal and synchronizes to an emergency center.

The monitored person is classified before monitoring, normal data of corresponding types of people are collected from the Internet to serve as contrast data, so that the accuracy of the monitored data is ensured, the situation that the monitored person is in an unexpected state due to large monitoring deviation caused by the fact that the same data serves as different types of contrast standards is effectively avoided, the safety of the monitored person can be better protected, the problems that in the prior art, the monitored data is large in error due to the fact that the reference data are unified, warning information cannot be timely sent out when the heart rate of the monitored person is abnormal, and the monitored person is injured are effectively solved, the monitoring accuracy of the system and the monitoring method is greatly improved, meanwhile, the heart rate information of the monitored person in different motion states is collected in real time, and warning information is timely sent out when the heart rate of the monitored person is abnormal in the motion process, the monitoring person is reminded, thereby the safety of the monitoring person is better protected, the monitoring person is not displayed, timely dangerous information of the person is sent to an emergency receiving end and the person is rescued, when the monitoring person is dangerous, the person can be timely treated, the life safety of the monitoring person is further protected, the problems that the existing monitoring system and the method only have heart rate monitoring and simple informing functions and cannot meet actual use requirements are effectively solved.

The human body judgment module processes the received human body information, and the specific process of generating the human body judgment information is as follows:

the method comprises the following steps: extracting the collected human body information, and acquiring the horizontal moving speed of the human body and the height information of the human body from the human body information;

step two: marking the horizontal moving speed of the human body as V, and marking the human body as VThe height information is marked as H, the height information of the human body is continuously collected for x times within a preset time length, x is more than or equal to 5, the difference between H1 and Hx is calculated, and a plurality of height difference values Hx are obtained_{Difference (D)}；

Step three: when the horizontal moving speed V of the human body is less than the preset value or the height difference Hx_{Difference (D)}When the average value of the motion parameters is less than a preset value, the motion is a common motion;

step three: when the horizontal moving speed V of the human body is within the preset value range or the height difference Hx_{Difference (D)}When the average value of the human body is within the preset value range, the human body moves in a medium motion mode, and when the horizontal movement speed V of the human body is larger than the preset value, but the height difference Hx is larger than the preset value_{Difference (D)}When the average value of the height difference Hx is less than the preset value, the human body moves at a horizontal speed V less than the preset value, namely the human body moves at a medium speed, but the height difference Hx is smaller than the preset value_{Difference (D)}When the average value is larger than the preset value, the medium movement is performed;

step four: when the horizontal moving speed V of the human body is larger than the preset value and the height difference Hx_{Difference (D)}When the average value is larger than the preset value, the strong motion is performed;

step five: when the horizontal moving speed V of the human body is 0 and the change from H1 to Hx is less than the preset value, the human body lies down.

Through the process, the state of the monitored person can be better monitored and judged, so that the heart rate when the user moves is prevented from influencing the normal heart rate judgment, and the horizontal movement speed of the human body and the height information of the human body are acquired through the acceleration sensor and the height sensor which are arranged on the intelligent wearable device.

The data processing module processes the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information to generate heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information, and the specific process is as follows:

s1: extracting the acquired basic information, processing the basic information to acquire the type information of the monitored person, extracting a normal heart rate index of a corresponding type, and marking the normal heart rate index as P;

s2: extracting first heart rate information and second heart rate information, marking the first heart rate information as Q1, and marking the second heart rate informationInformation is labeled as Q2, and calculating the mean value between the first heart rate information Q1 and the second heart rate information Q2 to obtain a real-time heart rate value, which is labeled as Q_{Fruit of Chinese wolfberry}；

S3: when the real-time information heart rate Q_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, human body judgment information is extracted, when the human body judgment information is strong motion, normal heart rate information is generated, and when the heart rate is real-time information Q_{Fruit of Chinese wolfberry}When the heart rate is larger than the early warning value, the heart rate abnormal information is generated, and when the heart rate is in real time_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s4: when the human body judges that the information is any one of general sports, medium sports and lying, the heart rate Q is real-time information_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, the heart rate abnormal information is generated, and when the heart rate is in real time, the heart rate Q is obtained_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s5: when the human body judges that the information is lying down, the heart rate Q is real-time information_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, abnormal heart rate information is generated, and when the heart rate is in real time, the heart rate Q is obtained_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s6: when real-time heart rate information Q_{Fruit of Chinese wolfberry}When the time is less than the preset value and exceeds the preset time, the personnel danger information is also generated.

Through the process, the alarm information can be accurately and rapidly sent out in time when the heart rate of the monitored person is abnormal, so that the safety of the monitored person is guaranteed.

The specific process of processing the basic information to obtain the category information of the monitored person is as follows:

SS 1: extracting the acquired basic information, and acquiring age information, sex information and disease information of the monitored person;

SS 2: when the sex is male, it is classified into class a, and when the sex is female, it is classified into class B;

SS 3: when the age of class a is less than a preset age, it is class a1, when the age of class a is within a preset age range, it is class a2, when the age of class a is greater than a preset age, it is class A3;

SS 4; when the age of class B is less than a preset age, it is class B1, when the age of class B is within a preset age range, it is class B2, and when the age of class B is greater than the preset age, it is class B3;

SS 5: when disease information exists, whether the sex is male or female, the sex is classified into C type;

SS 6: and collecting the normal information of the crowd of the A class, the B class and the C class from the Internet.

Through the process, the monitored people are classified carefully, the heart rate information of different types of people is acquired from the Internet to serve as reference heart rate information, and therefore the accuracy of generating various actual warning information is guaranteed.

The preset receiving end receives the abnormal heart rate information, the monitored person needs to stop the current movement, the movement is stopped for a preset time, the monitoring is carried out again, and when the abnormal heart rate information still exists in the secondary monitoring, the dangerous information of the personnel is generated and sent to the emergency receiving end.

The safety of the monitored person can be better protected through the process.

A continuous heart rate index monitoring method based on intelligent wearing comprises the following steps:

the method comprises the following steps: installing first acquisition equipment on the chest of a monitored person, and acquiring first heart rate information of the monitored person;

step two; the second acquisition equipment is arranged on the back of the monitored person and acquires second heart rate information of the monitored person;

step three: timing operation is carried out through a time recording unit, and time information when heart rate information is collected is recorded;

step four: the human body information acquisition module is used for acquiring basic information of a monitored person, and the human body state acquisition module is used for acquiring human body information;

step five: the human body judging module is used for processing the received human body information to generate human body judging information;

step six: processing the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information to generate heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information;

step seven: the general control module control information sending module sends the normal heart rate information, the abnormal heart rate information and the heart rate warning information to a preset receiving terminal, and simultaneously sends the dangerous information of the personnel to an emergency receiving terminal and synchronizes to an emergency center.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (6)

1. The intelligent-wearing-based continuous heart rate index monitoring system is characterized by comprising a first acquisition device, a second acquisition device, a time recording unit, a human body information acquisition module, a human body state acquisition module, a human body judgment module, a data receiving module, a data processing module, a master control module, an information sending module, a preset receiving end and an emergency receiving end;

the first acquisition equipment is arranged at the chest of the monitored person and is used for acquiring first heart rate information, and the second acquisition equipment is arranged at the back of the monitored person and is used for acquiring second heart rate information;

the time recording unit is used for timing operation and recording time information when the heart rate information is collected;

the human body information acquisition module is used for acquiring basic information of a monitored person, wherein the basic information comprises age, gender and disease information, and the disease information comprises heart disease;

the human body state acquisition module is used for acquiring human body information, and the human body information comprises the horizontal movement speed of a human body and height change information of the human body;

the human body information sending human body judging module is used for processing the received human body information to generate human body judging information, and the human body judging information comprises general movement, medium movement, strong movement and lying;

the data receiving module is used for receiving the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information and sending the information to the data processing module;

the data processing module receives the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information, processes the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information, and generates heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information;

the general control module control information sending module sends the normal heart rate information, the abnormal heart rate information and the heart rate warning information to a preset receiving terminal, and simultaneously sends the dangerous personnel information to an emergency receiving terminal and synchronizes to an emergency center.

2. The continuous heart rate indicator monitoring system based on intelligent wearing of claim 1, wherein: the human body judgment module processes the received human body information, and the specific process of generating the human body judgment information is as follows:

the method comprises the following steps: extracting the collected human body information, and acquiring the horizontal moving speed of the human body and the height information of the human body from the human body information;

step two: marking the horizontal movement speed of the human body as V, marking the height information of the human body as H, continuously collecting the height information of the human body for x times within a preset time length, wherein x is more than or equal to 5, calculating the difference between H1 and Hx in pairs to obtain a plurality of height difference values Hx_{Difference (D)}；

Step three: when the horizontal moving speed V of the human body is less than the preset value or the height difference Hx_{Difference (D)}When the average value of the motion parameters is less than a preset value, the motion is a common motion;

step three: when the horizontal moving speed V of the human body is within the preset value range or the height difference Hx_{Difference (D)}When the average value of the human body is within the preset value range, the human body moves in a medium motion mode, and when the horizontal movement speed V of the human body is larger than the preset value, but the height difference Hx is larger than the preset value_{Difference (D)}When the average value of the height difference Hx is less than the preset value, the human body moves at a horizontal speed V less than the preset value, namely the human body moves at a medium speed, but the height difference Hx is smaller than the preset value_{Difference (D)}When the average value is larger than the preset value, the medium movement is performed;

step four: when the horizontal moving speed V of the human body is larger than the preset value and the height difference Hx_{Difference (D)}When the average value is larger than the preset value, the strong motion is performed;

step five: when the horizontal moving speed V of the human body is 0 and the change from H1 to Hx is less than the preset value, the human body lies down.

3. The continuous heart rate indicator monitoring system based on intelligent wearing of claim 1, wherein: the data processing module processes the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information to generate heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information, and the specific process is as follows:

s1: extracting the acquired basic information, processing the basic information to acquire the type information of the monitored person, extracting a normal heart rate index of a corresponding type, and marking the normal heart rate index as P;

s2: extracting first heart rate information and second heart rate information, marking the first heart rate information as Q1, marking the second heart rate information as Q2, calculating the average value between the first heart rate information Q1 and the second heart rate information Q2 to obtain a real-time heart rate value, and marking the real-time heart rate value as Q2_{Fruit of Chinese wolfberry}；

S3: when the real-time information heart rate Q_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, human body judgment information is extracted, when the human body judgment information is strong motion, normal heart rate information is generated, and when the heart rate is real-time information Q_{Fruit of Chinese wolfberry}When the heart rate is larger than the early warning value, the heart rate abnormal information is generated, and when the heart rate is in real time_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s4: when the human body judges that the information is any one of general sports, medium sports and lying, the heart rate Q is real-time information_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, the heart rate abnormal information is generated, and when the heart rate is in real time, the heart rate Q is obtained_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s5: when the human body judges that the information is lying down, the heart rate Q is real-time information_{Fruit of Chinese wolfberry}When the heart rate is larger than the preset value, abnormal heart rate information is generated, and when the heart rate is in real time, the heart rate Q is obtained_{Fruit of Chinese wolfberry}When the alarm value is greater than the early warning value and the preset time length is greater than the early warning value, personnel danger information is generated;

s6: when real-time heart rate information Q_{Fruit of Chinese wolfberry}When the time is less than the preset value and exceeds the preset time, the personnel danger information is also generated.

4. The continuous heart rate indicator monitoring system based on intelligent wearing of claim 3, wherein: the specific process of processing the basic information to obtain the category information of the monitored person is as follows:

SS 1: extracting the acquired basic information, and acquiring age information, sex information and disease information of the monitored person;

SS 2: when the sex is male, it is classified into class a, and when the sex is female, it is classified into class B;

SS 3: when the age of class a is less than a preset age, it is class a1, when the age of class a is within a preset age range, it is class a2, when the age of class a is greater than a preset age, it is class A3;

SS 4; when the age of class B is less than a preset age, it is class B1, when the age of class B is within a preset age range, it is class B2, and when the age of class B is greater than the preset age, it is class B3;

SS 5: when disease information exists, whether the sex is male or female, the sex is classified into C type;

SS 6: and collecting the normal information of the crowd of the A class, the B class and the C class from the Internet.

5. The continuous heart rate indicator monitoring system based on intelligent wearing of claim 1, wherein: the preset receiving end receives the abnormal heart rate information, the monitored person needs to stop the current movement, the movement is stopped for a preset time, the monitoring is carried out again, and when the abnormal heart rate information still exists in the secondary monitoring, the dangerous information of the personnel is generated and sent to the emergency receiving end.

6. Continuous heart rate index monitoring method based on intelligent wearing is characterized in that: the method is based on the system of claims 1 to 5, the method comprising the steps of:

the method comprises the following steps: installing first acquisition equipment on the chest of a monitored person, and acquiring first heart rate information of the monitored person;

step two; the second acquisition equipment is arranged on the back of the monitored person and acquires second heart rate information of the monitored person;

step three: timing operation is carried out through a time recording unit, and time information when heart rate information is collected is recorded;

step four: the human body information acquisition module is used for acquiring basic information of a monitored person, and the human body state acquisition module is used for acquiring human body information;

step five: the human body judging module is used for processing the received human body information to generate human body judging information;

step six: processing the first heart rate information, the second heart rate information, the time information, the basic information and the human body judgment information to generate heart rate normal information, heart rate abnormal information, personnel danger information and heart rate warning information;

step seven: the general control module control information sending module sends the normal heart rate information, the abnormal heart rate information and the heart rate warning information to a preset receiving terminal, and simultaneously sends the dangerous information of the personnel to an emergency receiving terminal and synchronizes to an emergency center.

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