CN111772290A - Health monitoring method and system and intelligent mountaineering shoes - Google Patents

Abstract

The invention relates to the technical field of sports shoes, in particular to a health monitoring method and system and an intelligent mountaineering shoe, which comprises the following steps: s10: if the mountain-climbing starting message is acquired, acquiring physical sign data of the user in real time; s20: splitting the user sign data according to a preset mountaineering shoe control type to obtain sign data to be analyzed; s30: analyzing the sign data to be analyzed respectively according to the mountaineering shoe control seeds to obtain mountaineering shoe control instructions corresponding to the mountaineering shoe control seeds, wherein the mountaineering shoe control instructions comprise insole heating instructions and mountaineering shoe massage instructions; s40: and sending the climbing shoe control instruction to a corresponding climbing shoe control terminal according to the climbing shoe control type. The invention has the effect of detecting the health condition of the user when climbing the snowfield.

Description

Health monitoring method and system and intelligent mountaineering shoes

Technical Field

The invention relates to the technical field of sports shoes, in particular to a health monitoring method and system and an intelligent mountaineering shoe.

Background

At present, the climbing shoes are specially designed and manufactured for climbing mountains and traveling, and are very suitable for outdoor sports. The waterproof performance is the first function of modern mountaineering shoes, and the waterproof and air permeability of the modern mountaineering shoes are incomparable with that of common sports shoes.

In addition to the fashion trend of the existing climbing shoes, users mainly wear the climbing shoes to perform climbing sports, and particularly, the climbing shoes are particularly important to use in the process of climbing snow mountains.

In view of the above-mentioned related technologies, the inventor believes that the existing mountaineering shoes have a single function.

Disclosure of Invention

The invention aims to provide a health monitoring method and system capable of detecting the health condition of a user when climbing a snowfield and intelligent mountaineering shoes.

The above object of the present invention is achieved by the following technical solutions:

a health monitoring method, comprising the steps of:

s10: if the mountain-climbing starting message is acquired, acquiring physical sign data of the user in real time;

s20: splitting the user sign data according to a preset mountaineering shoe control type to obtain sign data to be analyzed;

s30: analyzing the sign data to be analyzed respectively according to the mountaineering shoe control seeds to obtain mountaineering shoe control instructions corresponding to the mountaineering shoe control seeds, wherein the mountaineering shoe control instructions comprise insole heating instructions and mountaineering shoe massage instructions;

s40: and sending the climbing shoe control instruction to a corresponding climbing shoe control terminal according to the climbing shoe control type.

By adopting the technical scheme, because the environment is generally harsh in the process of climbing mountains, particularly in the process of climbing snow mountains, the change of human body physical signs is also data which needs to be acquired in real time in the process of climbing mountains, after the mountain climbing start message is acquired, the physical sign data of a user can be detected in real time by using the intelligent detection terminal in the mountaineering shoe, the physical sign data of the body of the user can be detected in real time in the process of climbing mountains, the healthy body state can be maintained, the mountain climbing movement can be completed, meanwhile, the physical sign data of the user can be acquired only after the mountain climbing start message is acquired, and the efficiency of the acquired physical sign data of the user when the user actually climbs can be improved; after the user data are split according to the control type of the climbing shoes, the to-be-analyzed physical sign data obtained by splitting are analyzed, insole heating instructions and climbing shoe massage instructions are sent to the corresponding climbing shoe control terminals, the climbing process of a user can be guaranteed, particularly the experience and comfort level during the process of climbing snow mountains are guaranteed, and the functions of the traditional climbing snow mountains are also improved.

The present invention in a preferred example may be further configured to: step S10 includes the following steps:

s11: acquiring a preset starting detection index, and acquiring mountain-climbing shoe state data according to the starting detection index;

s12: and if the mountaineering shoe state data meet the starting detection index, generating the mountaineering starting message.

By adopting the technical scheme, the starting detection index is preset, and the state data of the climbing shoes can be timely acquired according to the starting detection index, so that the climbing starting information can be timely acquired according to the state data of the climbing shoes, and the timeliness of acquiring the physical sign data of a user is further ensured.

The present invention in a preferred example may be further configured to: step S30 includes:

s301: the physical sign data to be analyzed comprise sole temperature data, and the sole temperature data are detected in real time;

s302: and acquiring detection time for detecting the sole temperature data, and generating a corresponding insole heating instruction according to the detection time and the sole temperature data.

Through adopting above-mentioned technical scheme, through real-time detection sole temperature data, can be when the user climbs the body temperature reduction of snowfield, for the user heating, and according to inventor's experience summary, generally speaking when the human body feels cold, heat the heating for the sole, can let the body of promotion body feel the temperature more fast, and guaranteed user's comfort level.

The present invention in a preferred example may be further configured to: step S30 further includes:

s311: the physical sign data to be analyzed comprises foot fatigue degree data, and mountain climbing angle data and mountain climbing duration are obtained in real time;

s312: acquiring user weight data from the user sign data, and generating foot fatigue data according to the user weight data, the mountain climbing angle data and the mountain climbing duration;

s313: and comparing the foot fatigue data with a preset fatigue reference value to obtain a corresponding comparison result, and generating a corresponding massage instruction of the climbing shoe according to the comparison result.

Through adopting above-mentioned technical scheme, through synthesizing user's weight data, mountain-climbing angle data and long time of mountain-climbing, can judge more accurately or calculate user's foot fatigue data, can guarantee the relevance of foot fatigue data and specific user's current situation to can trigger this climbing shoe massage instruction at suitable opportunity, massage for user's foot through at the climbing shoe, can recover physical power for the user more fast, the efficiency of having guaranteed the mountain-climbing and the security of climbing.

The present invention in a preferred example may be further configured to: after the step S40, the health monitoring method further includes:

s50: if a sign abnormal signal is obtained according to the user sign data, triggering sign abnormal warning according to the sign abnormal signal;

s60: and if the sign dangerous signal is acquired according to the user sign data, acquiring the current user position data, and triggering a distress signal according to the user position data.

By adopting the technical scheme, different alarm signals are generated through different sign abnormal signals and sign dangerous signals, so that a user can be correspondingly treated when encountering an emergency when climbing the snowfield, and the safety of the user when climbing the snowfield is ensured.

The second aim of the invention is realized by the following technical scheme:

a health monitoring system, the health monitoring system comprising:

the physical sign data acquisition module is used for acquiring the mountain climbing start message and acquiring physical sign data of the user in real time;

the data splitting module is used for splitting the user sign data according to a preset mountaineering shoe control type to obtain sign data to be analyzed;

the instruction generation module is used for analyzing the sign data to be analyzed respectively according to the mountaineering shoe control seeds to obtain mountaineering shoe control instructions corresponding to the mountaineering shoe control seeds, and the mountaineering shoe control instructions comprise insole heating instructions and mountaineering shoe massage instructions;

and the execution module is used for sending the climbing shoe control instruction to a corresponding climbing shoe control terminal according to the climbing shoe control type.

By adopting the technical scheme, because the environment is generally harsh in the process of climbing mountains, particularly in the process of climbing snow mountains, the change of human body physical signs is also data which needs to be acquired in real time in the process of climbing mountains, after the mountain climbing start message is acquired, the physical sign data of a user can be detected in real time by using the intelligent detection terminal in the mountaineering shoe, the physical sign data of the body of the user can be detected in real time in the process of climbing mountains, the healthy body state can be maintained, the mountain climbing movement can be completed, meanwhile, the physical sign data of the user can be acquired only after the mountain climbing start message is acquired, and the efficiency of the acquired physical sign data of the user when the user actually climbs can be improved; after the user data are split according to the control type of the climbing shoes, the to-be-analyzed physical sign data obtained by splitting are analyzed, insole heating instructions and climbing shoe massage instructions are sent to the corresponding climbing shoe control terminals, the climbing process of a user can be guaranteed, particularly the experience and comfort level during the process of climbing snow mountains are guaranteed, and the functions of the traditional climbing snow mountains are also improved.

The third object of the invention is realized by the following technical scheme:

an intelligent climbing shoe comprises a climbing shoe body, wherein the climbing shoe body comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, and the processor realizes the steps of the health monitoring method when executing the computer program.

In summary, the invention includes at least one of the following beneficial technical effects:

1. because the environment is generally harsh in the process of climbing mountains, particularly in the process of climbing snow mountains, the change of human body physical signs is also data which needs to be acquired in real time in the process of climbing mountains, after the mountain climbing start message is acquired, the user physical sign data is detected in real time by using the intelligent detection terminal in the mountaineering shoe, the physical sign data of the body of the user can be detected in real time in the process of climbing mountains, the healthy body state is maintained, the mountain climbing movement is completed, meanwhile, the user physical sign data is acquired after the mountain climbing start message is acquired, and the efficiency of the acquired user physical sign data of the user in the actual mountain climbing process can be improved; after the user data are split according to the control types of the hiking boots, the obtained physical sign data to be analyzed are analyzed, and the obtained insole heating instruction and the obtained hiking boot massage instruction are sent to the corresponding hiking boot control terminal, so that the experience and comfort of the user in the hiking process, especially in the process of hiking the snow mountain, can be ensured, and the functions of the traditional hiking boots are improved;

2. by presetting the starting detection index, the state data of the climbing shoes can be timely acquired according to the starting detection index, so that the climbing starting information can be timely acquired according to the state data of the climbing shoes, and the timeliness of acquiring physical sign data of a user is further ensured;

3. the sole temperature data are detected in real time, so that the user can be heated when the body temperature of the user is reduced when the user climbs the snowfield, and according to the summary of the experience of the inventor, the sole is heated and heated when the human body feels cold, the body sensing temperature of the human body can be increased more quickly, and the comfort level of the user is ensured;

4. through user's weight data, mountain-climbing angle data and mountain-climbing duration of synthesizing, can judge more accurately or calculate user's foot fatigue data, can guarantee the relevance of foot fatigue data and specific user's current situation to can trigger this climbing shoe massage instruction at suitable opportunity, massage for user's foot through at the climbing shoe, can recover physical power for the user more fast, guarantee the efficiency of climbing and the security of climbing.

Drawings

FIG. 1 is a flow chart of a health monitoring method according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating the implementation of step S10 in the health monitoring method according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating the implementation of step S30 in the health monitoring method according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating another implementation of step S30 in the health monitoring method according to an embodiment of the present invention;

FIG. 5 is a flow chart of another implementation of the health monitoring method in an embodiment of the present invention;

FIG. 6 is a functional block diagram of a health monitoring device in accordance with an embodiment of the present invention;

fig. 7 is a schematic view of an apparatus for an intelligent hiking shoe according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In one embodiment, as shown in fig. 1, the present invention discloses a health monitoring method, which specifically includes the following steps:

s10: and if the mountain-climbing starting message is acquired, acquiring physical sign data of the user in real time.

In the present embodiment, the mountain climbing initiation message is a message indicating that the user or the wearer of the mountain climbing shoe starts an action of climbing a snowy mountain. The user physical sign data refers to data of physical conditions of a user when the user climbs a snow mountain.

Specifically, when a user starts to climb a snow mountain, the mountain climbing start data is acquired, the mountain climbing start data may be acquired by adding a communication module to an insole or other parts of a snow mountain climbing shoe worn by the user, and by using other mobile devices worn by the user and establishing short-distance communication with the communication module of the snow mountain climbing shoe, such as a smart phone, a smart watch, or a smart mobile terminal specially used for snow mountain climbing, the mountain climbing start message is triggered by the mobile devices when the user starts to climb the snow mountain; or an insole in the snow mountain climbing shoe or a device for detecting the motion state and the ambient environment condition of a user is added, the temperature of the ambient environment of the user accords with the environment of the snow mountain, the user continues for a plurality of time periods, such as 5 minutes, 10 minutes or 15 minutes, when the user drives the snow mountain climbing shoe to move, the user is judged to do climbing action according to the included angle of the horizontal plane of the sole of the snow mountain climbing shoe and the distance between every two steps, and then the mountain climbing starting message is automatically triggered.

Further, after the mountain climbing start message is obtained, a sensor which is installed in the snow mountain climbing boot and used for detecting physical sign data of the user is started, and the physical sign data of the user is obtained in real time through the sensor.

S20: and splitting the physical sign data of the user according to the preset mountaineering shoe control type to obtain the physical sign data to be analyzed.

In the present embodiment, the type of the climbing shoe control is a type of an instruction for controlling an operation in which the snowshoe worn by the user performs a response. The sign data to be analyzed refers to user sign data used for analyzing and judging whether corresponding actions need to be executed on the snowmountain climbing shoes.

Specifically, according to the type or model of the snowmobile mountaineering shoe worn by the user, the mountaineering shoe control type corresponding to the snowmobile mountaineering shoe is obtained, and according to the data type required to be obtained by the mountaineering shoe control type, the physical sign data of the user are split, so that the physical sign data to be analyzed are obtained.

S30: and analyzing the sign data to be analyzed respectively according to the mountain-climbing shoe control seeds to obtain mountain-climbing shoe control instructions corresponding to the mountain-climbing shoe control seeds, wherein the mountain-climbing shoe control instructions comprise insole heating instructions and mountain-climbing shoe massage instructions.

In this embodiment, the mountaineering shoe control command is a command for controlling the snowmountain mountaineering shoe to execute a corresponding action. The insole heating instruction is an instruction for controlling the insole of the snowmountain climbing shoe worn by the user to heat. The mountaineering shoe massage instruction is an instruction for controlling the inner sides of the upper and the vamp of the snowmountain mountaineering shoe worn by a user to squeeze so as to massage the foot of the user.

Specifically, when the sign data to be analyzed is analyzed, the corresponding sign data to be analyzed is judged according to the mountain-climbing shoe control seed class, and the judgment is used for judging whether the sign data to be analyzed meets the requirement of triggering the mountain-climbing shoe control instruction corresponding to the mountain-climbing shoe control seed class. Namely, whether the insole heating instruction and/or the mountain-climbing shoe massage instruction is triggered or not is judged from the physical sign data to be analyzed.

S40: and sending the climbing shoe control instruction to the corresponding climbing shoe control terminal according to the climbing shoe control type.

In the present embodiment, the mountaineering shoe control terminal is a terminal for controlling the action of a snowmountain mountaineering shoe worn by a user.

Specifically, corresponding devices are arranged in the snowmountain climbing shoe according to the climbing shoe control type, such as a heating sheet corresponding to the heating instruction of the insole is added into the insole, an air bag is arranged on the inner wall of the snowmountain climbing shoe, a device for controlling the inflation and deflation of the air bag and the like.

Further, the generated control instruction of the climbing shoe is sent to the corresponding control terminal of the climbing shoe according to the control type of the climbing shoe corresponding to the control instruction of the climbing shoe.

Wherein, including the intelligent components and parts of various detection and control in this snowmountain climbing shoes, its power supply mode can be that the mode of adding solar panel on the vamp supplies power for the intelligent components and parts in this snowmountain climbing shoes.

In an embodiment, as shown in fig. 2, in step S10, that is, if the mountain-climbing start message is acquired, the method acquires the user sign data in real time, and specifically includes the following steps:

s11: and acquiring a preset starting detection index, and acquiring the state data of the climbing shoe according to the starting detection index.

In the present embodiment, the start detection index refers to a criterion for determining whether or not to trigger the mountain climbing start message. The mountain climbing shoe state data refers to the current state of the snow mountain climbing shoe worn by the user.

Specifically, the start detection index may be obtained by counting data of the normal surrounding environment of the snow mountain and the behavior habit of the climber, such as the ambient temperature, the pace of the climber when climbing the snow mountain, and the angle between the sole and the horizontal plane, for the surrounding environment, when climbing the snow mountain.

Furthermore, the ambient temperature of the snowfield mountaineering shoe can be detected in real time, a temperature sensor can be added into the mountaineering shoe in a detection mode, or the ambient temperature environment is detected through a communication module in the snowfield mountaineering shoe in a communication connection mode through an intelligent mobile terminal, the included angle between the sole of the snowfield mountaineering shoe and the horizontal plane and the step of a user are detected through a gyroscope, and the included angle is used as the state data of the mountaineering shoe.

S12: and if the state data of the climbing shoes meet the starting detection index, generating a climbing starting message.

Specifically, if the ambient temperature, the user's pace, and the angle between the sole of the snowhill climbing shoe and the horizontal plane meet the snow climbing standards, for example, the ambient temperature is-20 ℃, the angle between the sole and the horizontal plane is greater than 20 °, and the user's pace at each step is greater than that at normal walking, the user is determined to start the snow climbing operation, and the mountain climbing initiation message is generated.

In an embodiment, as shown in fig. 3, in step S30, the physical sign data to be analyzed are analyzed according to the pair of mountain climbing shoe control seeds to obtain mountain climbing shoe control commands corresponding to the pair of mountain climbing shoe control seeds, where the mountain climbing shoe control commands include insole heating commands and mountain climbing shoe massage commands, and the method specifically includes the following steps:

s301: the physical sign data to be analyzed comprise sole temperature data, and the sole temperature data are detected in real time.

In this embodiment, the sole temperature data refers to the temperature of the sole of the foot when the user is climbing a snowy mountain.

Specifically, a temperature sensing device is added into the snowmountain climbing shoe, and the sole temperature data is detected in real time through the temperature sensing device.

S302: and acquiring the detection time of the sole temperature data, and generating a corresponding insole heating instruction according to the detection time and the sole temperature data.

Specifically, when sole temperature data are detected at the beginning, the detection time is recorded, when the sole temperature data are lower than a preset temperature value and the duration time exceeds 30 minutes, 40 minutes or an hour and the like, the body of the user is determined to be in a cold state, and an insole heating instruction is triggered to heat the insole of the snowmountain climbing shoe to 40 ℃, so that heat energy is provided for the user, and the body sensing temperature of the user is improved.

In one embodiment, as shown in fig. 4, in step S30, the characteristic data to be analyzed is analyzed according to the pair of mountaineering shoe control seeds, so as to obtain mountaineering shoe control commands corresponding to the pair of mountaineering shoe control seeds, where the mountaineering shoe control commands include insole heating commands and mountaineering shoe massage commands, and the method further includes the following steps:

s311: the physical sign data to be analyzed comprises foot fatigue degree data, and mountain climbing angle data and mountain climbing duration are obtained in real time.

In the present embodiment, the foot fatigue data indicates the degree of fatigue of the foot of the user after the user climbs the snow mountain for a long time. The mountaineering angle data refers to the angle between the sole of the snow mountain mountaineering shoe and the horizontal plane when a user climbs a snow mountain, and the mountaineering duration refers to the time length for maintaining the mountaineering angle data.

Specifically, after the mountain climbing start message is acquired, the mountain climbing angle data is detected through a gyroscope in the snow mountain climbing shoe or a mobile terminal in communication connection with a communication module of the snow mountain climbing shoe, and the corresponding time length for starting mountain climbing is recorded as the mountain climbing time length.

S312: and acquiring the weight data of the user from the physical sign data of the user, and generating foot fatigue data according to the weight data, the mountain climbing angle data and the mountain climbing duration of the user.

In the present embodiment, the user weight data refers to the weight data of the user when climbing a mountain, and it should be understood that the user weight data includes the sum of the user's own weight and the weight of all the climbing equipment worn.

Specifically, a pressure sensor is added at the sole or insole of the snow mountain climbing shoe, and the weight data of the user is obtained through the pressure sensor.

Further, the user weight data, the mountain climbing angle data, and the mountain climbing time period are used for calculation, the obtained numerical value is used as the fatigue degree of the foot of the user, and the fatigue degree of the foot is used for marking. And during calculation, the foot fatigue data is in direct proportion to the weight data, the mountain climbing angle data and the mountain climbing duration of the user.

S313: and comparing the foot fatigue data with a preset fatigue reference value to obtain a corresponding comparison result, and generating a corresponding massage instruction of the mountaineering shoe according to the comparison result.

In the present embodiment, the fatigue reference value is a reference value for determining whether or not the user's foot is in a fatigue state.

Specifically, the foot fatigue data obtained in real time is compared with the fatigue reference value, if the foot fatigue data obtained from the comparison result reaches or is higher than the fatigue reference value, the mountaineering shoe massage instruction is triggered and sent to the intelligent mobile terminal of the user, if corresponding response information is obtained, the user needs to massage the foot, and the action of a massage device in the snowmountain mountaineering shoe is controlled to massage the foot of the user.

In an embodiment, as shown in fig. 5, after step S40, the health monitoring method further includes:

s50: and if the sign abnormal signal is obtained according to the sign data of the user, triggering sign abnormal warning according to the sign abnormal signal.

In this embodiment, the abnormal sign signal is a signal indicating that the physical function of the user is decreased when the user climbs a snow mountain. The abnormal physical sign warning is a warning for warning a user to adjust the physical function of the user.

Specifically, as the altitude is higher and higher along with the time progress when the snow mountain is climbed, the oxygen content of the air is thinner and thinner, so that the physical ability and the water content of the body of a climber are reduced, if the physical sign data of a user is reduced to alarm, the physical sign abnormity warning is triggered to remind the user to adjust in time, and the smooth progress of the user when climbing the snow mountain is ensured.

S60: and if the sign dangerous signal is acquired according to the sign data of the user, acquiring the current position data of the user, and triggering a distress signal according to the position data of the user.

In this embodiment, the sign danger signal is a signal that the body function of the user abnormally decreases when the user climbs the snow mountain, or the signal that the body function of the user abnormally decreases to an abnormal value is triggered.

Specifically, if the user encounters a sudden dangerous condition when climbing the snowy mountain, so that the abnormal decline of the body function of the user is obtained when the body function of the user declines to an abnormal value, the physical sign dangerous signal is triggered, the position data of the user is obtained, the distress signal is triggered according to the position data of the user, and related rescue personnel are informed to go to rescue.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

In an embodiment, a health monitoring system is provided, and the health monitoring system corresponds to the health monitoring method in the above embodiments one to one. As shown in fig. 6, the health monitoring system includes a sign data acquisition module 10, a data splitting module 20, an instruction generation module 30 and an execution module 40. The functional modules are explained in detail as follows:

the sign data acquisition module 10 is used for acquiring the mountain climbing start message and acquiring user sign data in real time;

the data splitting module 20 is used for splitting the user physical sign data according to a preset mountaineering shoe control type to obtain physical sign data to be analyzed;

the instruction generating module 30 is configured to analyze the to-be-analyzed sign data according to the climbing shoe control seeds to obtain climbing shoe control instructions corresponding to the climbing shoe control seeds, where the climbing shoe control instructions include insole heating instructions and climbing shoe massage instructions;

and the execution module 40 is used for sending the mountaineering shoe control instruction to the corresponding mountaineering shoe control terminal according to the mountaineering shoe control type.

Preferably, the vital sign data acquisition module 10 comprises:

the starting detection submodule 11 is used for acquiring a preset starting detection index and acquiring mountain-climbing shoe state data according to the starting detection index;

and the starting message generation submodule 12 is used for generating a mountain climbing starting message if the state data of the mountain climbing shoes meet the starting detection index.

Preferably, the instruction generating module 30 comprises:

the temperature detection submodule 301 is used for detecting the sole temperature data in real time when the sign data to be analyzed comprise the sole temperature data;

and the heating submodule 302 is used for acquiring the detection time of the detected sole temperature data and generating a corresponding insole heating instruction according to the detection time and the sole temperature data.

Preferably, the instruction generating module 30 comprises:

the mountain climbing state obtaining submodule 311 is configured to obtain mountain climbing angle data and mountain climbing duration in real time, where the physical sign data to be analyzed includes foot fatigue data;

the calculating submodule 312 is configured to obtain user weight data from the user sign data, and generate foot fatigue data according to the user weight data, the mountain climbing angle data, and the mountain climbing duration;

and the massage submodule 313 is used for comparing the foot fatigue data with a preset fatigue reference value to obtain a corresponding comparison result, and generating a corresponding massage instruction of the mountaineering shoe according to the comparison result.

Preferably, the health monitoring system further comprises:

the first alarm module 50 is configured to trigger a sign abnormality warning according to the sign abnormality signal if the sign abnormality signal is obtained according to the user sign data;

and the second alarm module 60 is configured to, if a sign danger signal is obtained according to the user sign data, obtain current user position data, and trigger a distress signal according to the user position data.

For specific limitations of the health monitoring system, reference may be made to the above limitations of the health monitoring method, which are not described herein again. The various modules in the health monitoring system described above may be implemented in whole or in part by software, hardware, and combinations thereof. The modules can be embedded in a hardware form or independent of a processor in the intelligent climbing shoe, and can also be stored in a memory in the intelligent climbing shoe in a software form, so that the processor can call and execute the corresponding operation of the modules.

In one embodiment, an intelligent climbing shoe is provided, which can be a server, and the internal structure diagram of the intelligent climbing shoe can be shown in fig. 7.

In one embodiment, an intelligent climbing shoe is provided, which comprises a climbing shoe body, wherein the climbing shoe body comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, and the processor executes the computer program to realize the following steps:

s10: if the mountain-climbing starting message is acquired, acquiring physical sign data of the user in real time;

s20: splitting the physical sign data of the user according to a preset mountaineering shoe control type to obtain physical sign data to be analyzed;

s30: analyzing the sign data to be analyzed respectively according to the mountain-climbing shoe control seed classes to obtain mountain-climbing shoe control instructions corresponding to the mountain-climbing shoe control seed classes, wherein the mountain-climbing shoe control instructions comprise insole heating instructions and mountain-climbing shoe massage instructions;

s40: and sending the climbing shoe control instruction to the corresponding climbing shoe control terminal according to the climbing shoe control type.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. A health monitoring method, characterized in that it comprises the steps of:

s10: if the mountain-climbing starting message is acquired, acquiring physical sign data of the user in real time;

s20: splitting the user sign data according to a preset mountaineering shoe control type to obtain sign data to be analyzed;

s30: analyzing the sign data to be analyzed respectively according to the mountaineering shoe control seeds to obtain mountaineering shoe control instructions corresponding to the mountaineering shoe control seeds, wherein the mountaineering shoe control instructions comprise insole heating instructions and mountaineering shoe massage instructions;

s40: and sending the climbing shoe control instruction to a corresponding climbing shoe control terminal according to the climbing shoe control type.

2. The health monitoring method as claimed in claim 1, wherein the step S10 includes the steps of:

s11: acquiring a preset starting detection index, and acquiring mountain-climbing shoe state data according to the starting detection index;

s12: and if the mountaineering shoe state data meet the starting detection index, generating the mountaineering starting message.

3. The health monitoring method as claimed in claim 1, wherein step S30 includes:

s301: the physical sign data to be analyzed comprise sole temperature data, and the sole temperature data are detected in real time;

s302: and acquiring detection time for detecting the sole temperature data, and generating a corresponding insole heating instruction according to the detection time and the sole temperature data.

4. The health monitoring method as claimed in claim 1, wherein the step S30 further comprises:

s311: the physical sign data to be analyzed comprises foot fatigue degree data, and mountain climbing angle data and mountain climbing duration are obtained in real time;

s312: acquiring user weight data from the user sign data, and generating foot fatigue data according to the user weight data, the mountain climbing angle data and the mountain climbing duration;

s313: and comparing the foot fatigue data with a preset fatigue reference value to obtain a corresponding comparison result, and generating a corresponding massage instruction of the climbing shoe according to the comparison result.

5. The health monitoring method as claimed in claim 1, wherein after the step S40, the health monitoring method further comprises:

s50: if a sign abnormal signal is obtained according to the user sign data, triggering sign abnormal warning according to the sign abnormal signal;

s60: and if the sign dangerous signal is acquired according to the user sign data, acquiring the current user position data, and triggering a distress signal according to the user position data.

6. A health monitoring system, comprising:

the physical sign data acquisition module is used for acquiring the mountain climbing start message and acquiring physical sign data of the user in real time;

the data splitting module is used for splitting the user sign data according to a preset mountaineering shoe control type to obtain sign data to be analyzed;

the instruction generation module is used for analyzing the sign data to be analyzed respectively according to the mountaineering shoe control seeds to obtain mountaineering shoe control instructions corresponding to the mountaineering shoe control seeds, and the mountaineering shoe control instructions comprise insole heating instructions and mountaineering shoe massage instructions;

and the execution module is used for sending the climbing shoe control instruction to a corresponding climbing shoe control terminal according to the climbing shoe control type.

7. The health monitoring system of claim 6, wherein the vital sign data acquisition module comprises:

the starting detection submodule is used for acquiring a preset starting detection index and acquiring mountain-climbing shoe state data according to the starting detection index;

and the starting message generation submodule is used for generating the mountain-climbing starting message if the state data of the mountain-climbing shoes meet the starting detection indexes.

8. The health monitoring system of claim 6, wherein the instruction generation module comprises:

the temperature detection submodule is used for detecting the sole temperature data in real time, wherein the sign data to be analyzed comprise sole temperature data;

and the heating submodule is used for acquiring the detection time for detecting the sole temperature data and generating a corresponding insole heating instruction according to the detection time and the sole temperature data.

9. The health monitoring system of claim 6, wherein the instruction generation module comprises:

the mountaineering state acquisition submodule is used for acquiring mountaineering angle data and mountaineering duration in real time, wherein the physical sign data to be analyzed comprise foot fatigue data;

the calculation submodule is used for acquiring user weight data from the user sign data and generating the foot fatigue data according to the user weight data, the mountain climbing angle data and the mountain climbing duration;

and the massage submodule is used for comparing the foot fatigue data with a preset fatigue reference value to obtain a corresponding comparison result, and generating a corresponding mountaineering shoe massage instruction according to the comparison result.

10. An intelligent mountaineering shoe, which comprises a mountaineering shoe body, and is characterized in that the mountaineering shoe body comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, and the processor executes the computer program to realize the steps of the health monitoring method according to any one of claims 1 to 5.

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