CN108903923B - Health monitoring device, system and method - Google Patents

Abstract

The invention discloses a health monitoring device, a system and a method, wherein the health monitoring device comprises a processing unit, an acceleration sensor, a weight sensor and a physical sign detection unit; the acceleration sensor is used for detecting acceleration data in real time and transmitting the acceleration data to the processing unit; the weight sensor is used for acquiring weight data in real time after receiving the first detection notice transmitted by the processing unit and transmitting the weight data to the processing unit; the physical sign detection unit is used for acquiring the vital sign data in real time after receiving the second detection notice transmitted by the processing unit and transmitting the vital sign data to the processing unit; the processing unit is used for outputting the received acceleration data, the received weight data and the received vital sign data, so that intelligent health monitoring of a user is realized, the monitored data is comprehensive, and the equipment loss is reduced.

Description

Health monitoring device, system and method

Technical Field

The invention relates to the field of sensor detection, in particular to a health monitoring device, system and method.

Background

With the economic development and the improvement of the living standard of people, people pay more and more attention to their own health conditions, and at present, people want to know their own health conditions, generally, there are the following two methods: the first method comprises the following steps: the health monitoring is carried out by using a professional physical sign detection instrument at a specific place (such as a physical examination center); and the second method comprises the following steps: various intelligent wearable devices (such as intelligent bracelets) are used for health monitoring, and the health state of a human body is monitored constantly.

In the process of implementing the invention, the inventor finds that: although the first method is comprehensive and accurate in health detection result, the real-time performance is poor, the method is not suitable for daily use and professional operability, a user needs to go to a specific place and operate the method through professional equipment with the assistance of professionals, and time and labor are wasted; the second type is high in real-time performance, but the data that can be grabbed is single, the cardinal number of data volume is not large enough, and its data can not be as the standard of evaluation user health condition, and the continuous operation of intelligence wearing type equipment causes equipment loss easily moreover, causes equipment life to shorten, influences user's use experience.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide a health monitoring device, system and method, which perform health monitoring in real time when motion data is detected, so that the monitoring data is comprehensive and the equipment loss is reduced.

In a first aspect, an embodiment of the present invention provides a health monitoring device, including a processing unit, an acceleration sensor, a weight sensor, and a physical sign detection unit;

the acceleration sensor is connected with the processing unit and used for detecting acceleration data in real time and transmitting the acceleration data to the processing unit;

the processing unit is connected with the weight sensor and used for receiving the acceleration data; when the step number change is monitored according to the acceleration data for the first time after the sleep state, a first detection notice is sent to the weight sensor;

the weight sensor is used for acquiring weight data in real time after receiving the first detection notice and transmitting the weight data to the processing unit;

the processing unit is connected with the physical sign detection unit and is also used for receiving the weight data; when the weight data is received for the first time after the sleep state, a second detection notice is sent to the physical sign detection unit;

the physical sign detection unit is used for acquiring the vital sign data in real time after receiving the second detection notice and transmitting the vital sign data to the processing unit;

the processing unit is further configured to receive the vital sign data and output the acceleration data, the weight data, and the vital sign data.

In a first implementation manner of the first aspect, the health monitoring device is disposed on any one of a shoe, an insole, or a sock;

the physical sign detection unit comprises:

the heart rate sensor is used for detecting a human heart rate parameter;

the piezoelectric film sensor is used for detecting pulse parameters;

the temperature sensor is used for detecting a human body temperature parameter; and

a blood pressure sensor for detecting a blood pressure parameter; the heart rate sensor, the piezoelectric film sensor, the temperature sensor and the blood pressure sensor are respectively connected with the processing unit.

In a second implementation form of the first aspect, the health monitoring device further comprises a GPS positioning unit;

the processing unit is connected with the GPS positioning unit and is also used for initiating a third detection notice to the GPS positioning unit when the weight data is received for the first time after the dormant state;

the GPS positioning unit is used for collecting GPS positioning data at regular time after receiving the third detection notice and transmitting the GPS positioning data to the processing unit;

the processing unit is further configured to receive the GPS positioning data and output the GPS positioning data.

According to a second implementation form of the first aspect, in a third implementation form of the first aspect,

the processing unit is further configured to initiate a sleep notification to the weight sensor, the sign detection unit, and the GPS positioning unit to enter a sleep state when no step change is monitored according to the acceleration data within a preset time range;

the weight sensor is also used for receiving the dormancy notification and stopping collecting weight data according to the dormancy notification;

the sign detection unit is further configured to receive the sleep notification and stop collecting vital sign data according to the sleep notification;

and the GPS positioning unit is also used for receiving the dormancy notification and stopping collecting the GPS positioning data according to the dormancy notification.

According to a second implementation form of the first aspect, in a fourth implementation form of the first aspect,

the processing unit is also used for receiving a positioning acquisition notice and initiating a positioning data acquisition notice to the GPS positioning unit according to the positioning acquisition notice;

the GPS positioning unit is also used for receiving the positioning data acquisition notice, acquiring positioning data according to the positioning data acquisition notice and transmitting the positioning data to the processor;

the processor is further configured to receive the positioning data and output the positioning data according to the positioning acquisition notification.

In a second aspect, an embodiment of the present invention provides a health monitoring system, including the health monitoring apparatus, the health monitoring server, and a first associated device in any one of the first aspects;

the health monitoring server is in communication connection with the health monitoring device and is used for receiving the acceleration data, the weight data and the vital sign data output by the health monitoring device; obtaining current health values corresponding to various data according to the acceleration data, the weight data and the vital sign data so as to generate a health report sent to first associated equipment;

the first associated device is configured to receive the statement-of-health.

In a first implementation manner of the second aspect, the health monitoring server is specifically configured to calculate a number of exercise steps according to the acceleration data; and acquiring current health values corresponding to the various data according to the accumulated deviation between the exercise step number and a preset step number standard range, the deviation between the weight data and a preset weight standard range and the deviation between the vital sign data and preset standard sign data so as to generate a health report sent to first associated equipment.

In a second implementation form of the second aspect,

the health monitoring server is further used for calculating consumed calories according to the acceleration data and the weight data; when detecting that the consumed calorie does not reach a preset consumption threshold value at a preset time point, generating reminding information sent to the first associated equipment;

the first associated device is further configured to receive the reminding information.

In a third implementation manner of the second aspect, the method further includes a second association device;

the health monitoring server is further configured to, when it is detected that the current health value is lower than a preset alert threshold, acquire critical data corresponding to the current health value, and initiate a positioning acquisition notification to the health monitoring device, so that the health monitoring device returns positioning data; sending the critical data and the positioning data to the second associated equipment;

the second associated device is further configured to receive the critical data and the positioning data.

In a fourth implementation manner of the second aspect, the health monitoring server is further configured to receive GPS positioning data output by the health monitoring device.

In a third aspect, an embodiment of the present invention provides a health monitoring method based on the health monitoring system in any one of the second aspects, including the following steps:

acquiring acceleration data in real time through an acceleration sensor;

when the step number change is monitored according to the acceleration data for the first time after the sleep state, acquiring weight data in real time through a weight sensor;

when the weight data is acquired for the first time after the dormant state, acquiring vital sign data in real time through a vital sign unit;

and obtaining current health values corresponding to the various data according to the acceleration data, the weight data and the vital sign data so as to generate a health report sent to first associated equipment.

In a first implementation manner of the third aspect, the obtaining, according to the acceleration data, the weight data, and the vital sign data, a current health value corresponding to each item of data to generate a health report sent to a first associated device specifically includes:

calculating the number of movement steps according to the acceleration data;

and acquiring current health values corresponding to the various data according to the accumulated deviation between the exercise step number and a preset step number standard range, the deviation between the weight data and a preset weight standard range and the deviation between the vital sign data and preset standard sign data so as to generate a health report sent to first associated equipment.

In a second implementation manner of the third aspect, the method further includes:

calculating calories consumed from the acceleration data and the weight data;

and when detecting that the consumed calorie does not reach a preset consumption threshold value at a preset time point, generating reminding information sent to the first associated equipment.

In a third implementation manner of the third aspect, the method further includes:

when the current health value is detected to be lower than a preset warning threshold value, acquiring corresponding critical data corresponding to the current health value;

acquiring positioning data through the GPS positioning unit;

and sending the critical data and the positioning data to the second associated equipment.

The above embodiment has the following beneficial effects:

through providing one kind including the processing unit, acceleration sensor, weight sensor and sign detecting element's health monitoring device, the realization is to the comprehensive health monitoring of user, the monitoring data is comprehensive, improve user's use and experience, and just gather important data when detecting there is the motion data, just carry out the vital sign when having the weight data and detect, make health monitoring data more accurate, it makes health monitoring's error too big to avoid detecting invalid data, just carry out health data collection in real time when detecting the motion data simultaneously, also be favorable to reducing the equipment loss, improve equipment life.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a health monitoring device according to a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a sign detection unit according to a first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a health monitoring system according to a second embodiment of the present invention.

Fig. 4 is a schematic flow chart of a health monitoring method according to a third embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a first embodiment of the present invention provides a health monitoring device 10, wherein the health monitoring device 10 is disposed on any one of a shoe, an insole or a sock, and the implementation process is substantially the same, and the health monitoring device 10 is described below by taking the health monitoring device 10 disposed on the shoe as an example:

referring to fig. 1, a health monitoring device 10 according to a first embodiment of the present invention includes a processing unit 11, an acceleration sensor 12, a weight sensor 13, and a physical sign detecting unit 14.

The acceleration sensor 12 is connected to the processing unit 11, and is configured to detect acceleration data in real time and transmit the acceleration data to the processing unit 11.

In the embodiment of the present invention, it should be noted that the acceleration sensor 12 is in a real-time operation state.

The processing unit 11 is connected with the weight sensor 13 and is used for receiving the acceleration data; when the step number change is monitored according to the acceleration data for the first time after the sleep state, a first detection notification is initiated to the weight sensor 13.

The weight sensor 13 is configured to collect weight data in real time after receiving the first detection notification, and transmit the weight data to the processing unit 11.

In the embodiment of the present invention, when the processing unit 11 receives the acceleration data and detects motion data according to the acceleration data, that is, when the processing unit 11 calculates that there is a change in the number of motion steps according to the acceleration data, the processing unit 11 accumulates the number of motion steps in the current day, and initiates a first detection notification to the weight sensor 13 in the sleep state, so that the weight sensor 13 enters the working state from the sleep state, starts to collect weight data in real time, avoids false detection of health data, and reduces sensor device loss.

The processing unit 11 is connected to the physical sign detecting unit 14, and is further configured to receive the weight data; when the weight data is first received after a sleep state, a second detection notification is initiated to the vital signs detection unit 14.

The sign detection unit 14 is configured to collect, after receiving the second detection notification, vital sign data in real time, and transmit the vital sign data to the processing unit 11.

In the embodiment of the present invention, when the processing unit 11 receives the weight data based on the motion data, it indicates that the intelligent shoe on which the health monitoring device 10 is located is worn by the user, and the user has a corresponding walking motion, the processing unit 11 sends a second detection notification to the physical sign detection unit 14, so that the physical sign detection unit 14 enters a working state from a sleep state, and starts to collect the vital sign data in real time, thereby avoiding the false detection of the health data, and reducing the loss of the sensor device.

Referring to fig. 2, in the embodiment of the present invention, the physical sign detecting unit 14 includes a heart rate sensor 141 for detecting a heart rate parameter of a human body; a piezoelectric film sensor 142 for detecting pulse parameters; a temperature sensor 143 for detecting a temperature parameter of the human body; and a blood pressure sensor 144 for detecting a blood pressure parameter; the heart rate sensor 141, the piezoelectric film sensor 142, the temperature sensor 143, and the blood pressure sensor 144 are respectively connected to the processing unit 11.

The processing unit 11 is further configured to receive the vital sign data, and output the acceleration data, the weight data, and the vital sign data.

In the embodiment of the present invention, after receiving the acceleration data, the weight data, and the vital sign data, the processing unit 11 transmits the acceleration data, the weight data, and the vital sign data to the health monitoring server 20 in real time, and meanwhile, the processing unit 11 also transmits the accumulated exercise steps to the health monitoring server 20, and the processing unit 11 is wirelessly connected to the health monitoring server 20, for example, by wireless connection such as 3G/4G/5G/WiFi/wireless bluetooth.

In summary, the embodiment of the present invention provides a health monitoring device 10 including a processing unit 11, an acceleration sensor 12, a weight sensor 13, and a physical sign detecting unit 14, so as to achieve comprehensive health monitoring of a user, monitor data comprehensively and accurately, and improve user experience, and when motion data is detected, important data is collected, and when weight data is detected, vital sign detection is performed, so that health monitoring data is more accurate, and it is avoided that error of health monitoring is too large due to detection of invalid data, and meanwhile, health data collection is performed in real time when motion data is detected, which is also beneficial to reducing equipment loss and improving equipment service life.

In another embodiment of the present invention, the health monitoring device 10 further comprises a GPS location unit 15.

The processing unit 11 is connected to the GPS positioning unit 15, and is further configured to initiate a third detection notification to the GPS positioning unit 15 when the weight data is received for the first time after the sleep state.

And the GPS positioning unit 15 is configured to acquire GPS positioning data at regular time after receiving the third detection notification, and transmit the GPS positioning data to the processing unit 11.

The processing unit 11 is further configured to receive the GPS positioning data and output the GPS positioning data.

In the embodiment of the invention, when the processing unit 11 receives weight data on the basis of motion data, it indicates that a user wears the intelligent shoe on which the health monitoring device 10 is located, and at this time, the user has a corresponding walking action, the processing unit 11 initiates a third detection notification to the GPS positioning unit 15, so that the GPS positioning unit 15 enters a working state from a sleep state, and starts to acquire GPS positioning data at regular time, and in a normal walking or motion state, the GPS positioning unit 15 does not need to acquire the GPS positioning data in real time, and only needs to acquire the GPS positioning data at intervals, thereby reducing the loss of positioning equipment.

In another embodiment of the invention:

the processing unit 11 is further configured to initiate a sleep notification to the weight sensor 13, the physical sign detection unit 14, and the GPS positioning unit 15 to enter a sleep state when no step change is monitored according to the acceleration data within a preset time range.

The weight sensor 13 is further configured to receive the sleep notification, and stop collecting weight data according to the sleep notification.

The sign detection unit 14 is further configured to receive the sleep notification, and stop collecting vital sign data according to the sleep notification.

The GPS positioning unit 15 is further configured to receive the sleep notification, and stop collecting GPS positioning data according to the sleep notification.

In the embodiment of the present invention, when the processing unit 11 detects that there is no step change according to the acceleration data obtained in real time within a preset time range, the processing unit 11 initiates a sleep notification to the weight sensor 13, the physical sign detection unit 14, and the GPS positioning unit 15, so that the weight sensor 13, the physical sign detection unit 14, and the GPS positioning unit 15 initiate the sleep notification to enter a sleep state from a working state, thereby implementing comprehensive utilization of device resources and reducing loss of device resources.

In another embodiment of the invention:

the processing unit 11 is further configured to receive a positioning acquisition notification, and initiate a positioning data acquisition notification to the GPS positioning unit 15 according to the positioning acquisition notification.

The GPS positioning unit 15 is further configured to receive the positioning data acquisition notification, acquire positioning data according to the positioning data acquisition notification, and transmit the positioning data to the processor.

The processor is further configured to receive the positioning data and output the positioning data according to the positioning acquisition notification.

In the embodiment of the present invention, the processing unit 11 receives the positioning acquisition notification of the health monitoring server 20, and causes the GPS positioning unit 15 to acquire positioning data according to the positioning acquisition notification, and transmits the positioning data to the health monitoring server 20 in real time, so as to meet the real-time requirement of the health monitoring server 20.

Referring to fig. 3, a health monitoring system according to a second embodiment of the present invention includes the health monitoring device 10, the health monitoring server 20 and the first associated equipment 30 of the first aspect.

The health monitoring server 20 is in communication connection with the health monitoring device 10, and is configured to receive the acceleration data, the weight data, and the vital sign data output by the health monitoring device 10; and obtaining the current health value corresponding to each item of data according to the acceleration data, the weight data and the vital sign data to generate a health report sent to the first associated device 30.

In the embodiment of the present invention, the health monitoring server 20 is specifically configured to receive the acceleration data, the weight data, and the vital sign data output by the processing unit 11 of the health monitoring device 10, and calculate the exercise steps according to the acceleration data; and according to the deviation between the accumulated exercise step number and the preset step number standard range, the deviation between the weight data and the preset weight standard range, and the deviation between the vital sign data and the preset standard sign data, obtaining the current health value corresponding to each item of data to generate a health report sent to the first correlation device 30, for example, comparing the heart rate data in the obtained vital sign data with the preset normal range, for example, the preset normal heart rate range is 60-95 times/minute, calculating the deviation value between the collected heart rate data and the preset normal range, thereby correspondingly obtaining the health value corresponding to the heart rate data, it should be noted that the present invention does not make any limitation on the setting rule of the health value, for example, the total health value can be positioned according to actual needs, and according to the deviation between the actually collected data condition and the normal range of the corresponding data, obtaining a corresponding health value, wherein the smaller the deviation is, the higher the health value is; or may be a complete system, a five-part system, a graded system (unqualified, qualified, medium, good, excellent), etc., and the above arrangement is within the protection scope of the present invention.

In the embodiment of the present invention, the health monitoring server 20 is further configured to receive GPS positioning data periodically output by the processing unit 11 of the health monitoring device 10.

The first correlation device 30 is configured to receive the statement of health.

In the embodiment of the present invention, the first associated device 30 may be a mobile terminal, such as a mobile phone, a tablet, or a computer, and the like, and the health monitoring server 20 sends the health report to the APP of the first associated device 30, so that the user obtains a health condition by looking up the health report of the APP of the first associated device 30, and multiple pieces of data obtain a more accurate health monitoring result, and the health control manner is more intelligent, and can prevent the generation of health crisis of the body in advance, and improve the user experience.

In another embodiment of the invention:

the health monitoring server 20 is further configured to calculate calories consumed according to the acceleration data and the weight data; when it is detected that the consumed calories do not reach a preset consumption threshold at a preset time point, a reminder message sent to the first correlation device 30 is generated.

The first association device 30 is further configured to receive the reminding information.

In the embodiment of the present invention, the health monitoring server 20 calculates calories consumed according to the acceleration data and the weight data uploaded by the processing unit 11 of the health monitoring device 10 in real time, specifically, the health monitoring server 20 further receives the accumulated exercise step number uploaded by the processing unit 11 of the health monitoring device 10, calculates an exercise distance according to the acceleration data, calculates an exercise time according to the accumulated exercise step number and the exercise distance, calculates calories consumed during the exercise time according to the weight data acquired in real time, for example, 7700 calories are consumed when a person loses one kilogram of fat, and the health monitoring server 20 calculates calories consumed according to a difference between the weight data acquired during the exercise time.

In the embodiment of the present invention, when the health monitoring server 20 detects that the calories consumed by the user wearing the smart shoe equipped with the health device do not reach the preset consumption threshold value at a preset time point, for example, every 3 hours, that is, when the user does not reach the exercise standard, the health monitoring server initiates an exercise prompt to the user, and generates a prompt message sent to the first associated device 30, which is beneficial to supervising the user to exercise and enhancing the health value.

In another embodiment of the invention, a second associating device 40 is also included.

The health monitoring server 20 is further configured to, when it is detected that the current health value is lower than a preset alert threshold, obtain critical data corresponding to the current health value, and initiate a positioning obtaining notification to the health monitoring device 10, so that the health monitoring device 10 returns positioning data; sending the critical data and the positioning data to the second associated device 40.

The second correlation device 40 is further configured to receive the critical data and the positioning data.

In the embodiment of the present invention, when the health monitoring server 20 detects that the current health value is lower than a preset alert threshold, for example, the deviation of the heart rate data from a preset normal range is too large, the deviation of the heart rate data from the preset normal range is too large, the deviation of the blood pressure data from the preset normal range is over an alert value, the pulse data is weak, and the like, the health monitoring server 20 obtains corresponding critical data corresponding to the current health value, and sends a positioning obtaining notification to the processing unit 11 in the health monitoring device 10, and the processing unit 11 enables the GPS positioning unit to collect positioning data according to the positioning obtaining notification, and transmits the positioning data to the health monitoring server 20 in real time; then, the health monitoring server 20 automatically sends the critical data and the positioning data to the second related device 40, for example, the health monitoring server 20 automatically sends the critical data and the positioning data to a mobile phone of a related family (i.e. a second related device) in the form of a mobile phone short message, so as to prevent the health crisis of the body in advance.

In the embodiment of the invention, a user wearing the intelligent shoe with the health monitoring device 10 normally walks, can check recent physical health sign data of the user on the APP corresponding to the mobile phone at any time, prevent special health crisis in time and prompt the user to urge the user to keep the target weight; when special conditions are met, crisis data and positioning data can be automatically or manually sent to the contact equipment of the close contact person so as to search for the person.

Referring to fig. 4, a third embodiment of the present invention provides a health monitoring method based on the health monitoring system of any one of the second embodiments, including the following steps:

and S11, acquiring acceleration data in real time through the acceleration sensor.

And S12, when the step number change is monitored according to the acceleration data for the first time after the sleep state, acquiring weight data in real time through a weight sensor.

And S13, when the weight data is collected for the first time after the sleep state, acquiring the vital sign data in real time through the vital sign unit.

And S14, obtaining current health values corresponding to the acceleration data, the weight data and the vital sign data to generate a health report sent to first associated equipment.

In a first implementation manner of the third embodiment, the S14 is specifically:

and calculating the number of steps of the exercise according to the acceleration data.

And acquiring current health values corresponding to the various data according to the accumulated deviation between the exercise step number and a preset step number standard range, the deviation between the weight data and a preset weight standard range and the deviation between the vital sign data and preset standard sign data so as to generate a health report sent to first associated equipment.

In a second implementation manner of the third embodiment, the method further includes:

calculating calories consumed based on the acceleration data and the weight data.

And when detecting that the consumed calorie does not reach a preset consumption threshold value at a preset time point, generating reminding information sent to the first associated equipment.

In a third implementation manner of the third embodiment, the method further includes:

and when the current health value is detected to be lower than a preset warning threshold value, acquiring corresponding critical data corresponding to the current health value.

And acquiring positioning data through the GPS positioning unit.

And sending the critical data and the positioning data to the second associated equipment.

It should be noted that the above-described device embodiments are merely illustrative, where the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. In addition, in the drawings of the embodiment of the apparatus provided by the present invention, the connection relationship between the modules indicates that there is a communication connection between them, and may be specifically implemented as one or more communication buses or signal lines. One of ordinary skill in the art can understand and implement it without inventive effort.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (9)

1. A health monitoring device is characterized by comprising a processing unit, an acceleration sensor, a weight sensor and a physical sign detection unit;

the acceleration sensor is connected with the processing unit and used for detecting acceleration data in real time and transmitting the acceleration data to the processing unit;

the processing unit is connected with the weight sensor and used for receiving the acceleration data; when the step number change is monitored according to the acceleration data for the first time after the sleep state, a first detection notice is sent to the weight sensor;

the weight sensor is used for acquiring weight data in real time after receiving the first detection notice and transmitting the weight data to the processing unit;

the processing unit is connected with the physical sign detection unit and is also used for receiving the weight data; when the weight data is received for the first time after the sleep state, a second detection notice is sent to the physical sign detection unit;

the physical sign detection unit is used for acquiring the vital sign data in real time after receiving the second detection notice and transmitting the vital sign data to the processing unit;

the processing unit is further configured to receive the vital sign data and output the acceleration data, the weight data, and the vital sign data.

2. The health monitoring device of claim 1, wherein the health monitoring device is disposed on any one of a shoe, insole, or sock;

the physical sign detection unit comprises:

the heart rate sensor is used for detecting a human heart rate parameter;

the piezoelectric film sensor is used for detecting pulse parameters;

the temperature sensor is used for detecting a human body temperature parameter; and

a blood pressure sensor for detecting a blood pressure parameter; the heart rate sensor, the piezoelectric film sensor, the temperature sensor and the blood pressure sensor are respectively connected with the processing unit.

3. The health monitoring device as in claim 1, further comprising a GPS location unit;

the processing unit is connected with the GPS positioning unit and is also used for initiating a third detection notice to the GPS positioning unit when the weight data is received for the first time after the dormant state;

the GPS positioning unit is used for collecting GPS positioning data at regular time after receiving the third detection notice and transmitting the GPS positioning data to the processing unit;

the processing unit is further configured to receive the GPS positioning data and output the GPS positioning data.

4. The health monitoring device of claim 3,

the processing unit is further configured to initiate a sleep notification to the weight sensor, the sign detection unit, and the GPS positioning unit to enter a sleep state when no step change is monitored according to the acceleration data within a preset time range;

the weight sensor is also used for receiving the dormancy notification and stopping collecting weight data according to the dormancy notification;

the sign detection unit is further configured to receive the sleep notification and stop collecting vital sign data according to the sleep notification;

and the GPS positioning unit is also used for receiving the dormancy notification and stopping collecting the GPS positioning data according to the dormancy notification.

5. The health monitoring device of claim 3,

the processing unit is also used for receiving a positioning acquisition notice and initiating a positioning data acquisition notice to the GPS positioning unit according to the positioning acquisition notice;

the GPS positioning unit is also used for receiving the positioning data acquisition notice, acquiring positioning data according to the positioning data acquisition notice and transmitting the positioning data to the processor;

the processor is further configured to receive the positioning data and output the positioning data according to the positioning acquisition notification.

6. A health monitoring system comprising a health monitoring device as claimed in any one of claims 1 to 5, a health monitoring server and a first associated device;

the health monitoring server is in communication connection with the health monitoring device and is used for receiving the acceleration data, the weight data and the vital sign data output by the health monitoring device; obtaining current health values corresponding to various data according to the acceleration data, the weight data and the vital sign data so as to generate a health report sent to first associated equipment;

the first associated device is configured to receive the statement-of-health.

7. The health monitoring system as claimed in claim 6, wherein the health monitoring server is configured to calculate the number of exercise steps from the acceleration data; and acquiring current health values corresponding to the various data according to the accumulated deviation between the exercise step number and a preset step number standard range, the deviation between the weight data and a preset weight standard range and the deviation between the vital sign data and preset standard sign data so as to generate a health report sent to first associated equipment.

8. The health monitoring system of claim 6,

the health monitoring server is further used for calculating consumed calories according to the acceleration data and the weight data; when detecting that the consumed calorie does not reach a preset consumption threshold value at a preset time point, generating reminding information sent to the first associated equipment;

the first associated device is further configured to receive the reminding information.

9. The wellness monitoring system of claim 6 further comprising a second associated device;

the health monitoring server is further configured to, when it is detected that the current health value is lower than a preset alert threshold, acquire critical data corresponding to the current health value, and initiate a positioning acquisition notification to the health monitoring device, so that the health monitoring device returns positioning data; sending the critical data and the positioning data to the second associated equipment;

the second associated device is further configured to receive the critical data and the positioning data.

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