CN112971735B - Monitoring method for heatstroke and dizziness and motion sickness caused by heat and wearable equipment - Google Patents

Monitoring method for heatstroke and dizziness and motion sickness caused by heat and wearable equipment Download PDF

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CN112971735B
CN112971735B CN202110180342.6A CN202110180342A CN112971735B CN 112971735 B CN112971735 B CN 112971735B CN 202110180342 A CN202110180342 A CN 202110180342A CN 112971735 B CN112971735 B CN 112971735B
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CN112971735A (en
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姚震邦
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Sky Society Technology Shenzhen Co ltd
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    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
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    • A61B5/01Measuring temperature of body parts ; Diagnostic temperature sensing, e.g. for malignant or inflamed tissue
    • AHUMAN NECESSITIES
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    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/02Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
    • A61B5/0205Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
    • A61B5/02055Simultaneously evaluating both cardiovascular condition and temperature
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/74Details of notification to user or communication with user or patient ; user input means
    • A61B5/746Alarms related to a physiological condition, e.g. details of setting alarm thresholds or avoiding false alarms

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Abstract

The invention discloses a monitoring method for heatstroke and dizziness and faint caused by heat and wearable equipment, wherein the method comprises the following steps: collecting heart rate data and core body temperature data of a user, and judging whether the heart rate data and the core body temperature data are higher than a preset heart rate threshold value or not; when above a preset heart rate threshold and/or above a preset core body temperature threshold; continuously collecting heart rate data and core body temperature data, and judging whether the heart rate data and the core body temperature data are higher than a preset heart rate threshold value range and whether the heart rate data and the core body temperature data are higher than a preset core body temperature threshold value; when the acquisition time is higher than a preset heart rate threshold and/or higher than a preset core body temperature threshold, judging whether the acquisition time exceeds a preset duration threshold; if the first time difference value does not exceed the preset duration threshold value; comparing the activity difference with a preset activity threshold, outputting a personal core body temperature threshold, and comparing to determine whether the body temperature data are normal. The embodiment of the invention monitors and judges the heart rate data and the core body temperature data of the user in real time so as to achieve the effect of timely alarming.

Description

Monitoring method for heatstroke and dizziness and motion sickness caused by heat and wearable equipment
Technical Field
The invention relates to the technical field of wearable equipment, in particular to a monitoring method for heatstroke and dizziness and motion sickness caused by heat and the wearable equipment.
Background
Along with the development of scientific technology, intelligent wearable equipment is widely applied to life and work of people. However, the current wearable device is difficult to have the function of monitoring the physical functions of the user at any time and any place, and further if the user suddenly breaks certain accidents or diseases, the wearable device cannot monitor and give an alarm in time, so that the user loses precious pathological information and rescue opportunities.
Disclosure of Invention
The embodiment of the invention provides a monitoring method for heatstroke and dizziness and faint caused by heat and wearable equipment, aiming at carrying out real-time monitoring and judgment on heart rate of a user so as to achieve the effect of timely alarming.
The embodiment of the invention provides a monitoring method for heatstroke and dizziness and faint caused by heat, which comprises the following steps:
collecting first heart rate data, first core body temperature data and first activity data of a user, judging whether the first heart rate data is higher than a preset heart rate threshold value or not, and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not;
When the first heart rate data is higher than a preset heart rate threshold value and/or the first core body temperature data is higher than a preset first core body temperature threshold value, a first mark is established;
continuously collecting second heart rate data, second core body temperature data and second activity data of a user, judging whether the second heart rate data is higher than a preset heart rate threshold value range or not and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not;
when the second heart rate data is higher than a preset heart rate threshold value and/or the second core body temperature data is higher than a preset first core body temperature threshold value, judging whether a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time length threshold value;
if the first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data does not exceed a preset first time length threshold value, a second mark is established;
comparing the activity difference value between the first activity amount data and the second activity amount data with a preset activity amount threshold value based on the first mark and the second mark, and then outputting a corresponding personal core body temperature threshold value through a preset personal model based on an activity amount comparison result;
Comparing the first core body temperature data and the second core body temperature data with the personal core body temperature threshold value respectively, judging whether the body temperature data of a user are normal according to the core body temperature comparison result, outputting a corresponding first tag flag and a first reminding signal, and displaying the first tag flag and the first reminding signal on wearable equipment and terminal equipment associated with the wearable equipment.
Further, the method further comprises the following steps:
if the first heart rate data of the user is not higher than the preset heart rate threshold value and the first core body temperature data is not higher than the preset first core body temperature threshold value, continuing to acquire the current heart rate data and the current core body temperature data of the user, judging whether the current heart rate data is higher than the preset heart rate threshold value and judging whether the current core body temperature data is higher than the preset first core body temperature threshold value or not, until the current heart rate data is higher than the preset heart rate threshold value and/or the current core body temperature data is higher than the preset first core body temperature threshold value, then establishing a current mark, and taking the current mark as the first mark.
Further, when the second heart rate data is higher than a preset heart rate threshold and/or the second core body temperature data is higher than a preset first core body temperature threshold, determining whether a first time difference between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold, includes:
When a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold, continuously acquiring third heart rate data, third core body temperature data and third activity data of a user, judging whether the third heart rate data is higher than a preset heart rate threshold or not and judging whether the third core body temperature data is higher than a preset first core body temperature threshold or not;
if the third heart rate data is higher than a preset heart rate threshold value and/or the third core body temperature data is higher than a preset first core body temperature threshold value, reestablishing a first mark;
continuously collecting fourth heart rate data, fourth core body temperature data and fourth activity data of a user, judging whether the fourth heart rate data is higher than a preset heart rate threshold value or not and judging whether the fourth core body temperature data is higher than a preset first core body temperature threshold value or not;
if the fourth heart rate data is higher than the preset heart rate threshold value and/or the third core body temperature data is higher than the preset first core body temperature threshold value, judging whether a second time difference value between the acquisition time of the third heart rate data and the acquisition time of the fourth heart rate data exceeds the preset first time threshold value.
Further, comparing the activity difference between the first activity amount data and the second activity amount data with a preset activity amount threshold based on the first flag and the second flag, and then outputting a corresponding personal core body temperature threshold through a preset personal model based on the activity amount comparison result, including:
outputting a corresponding second core body temperature range through a preset personal model when the activity amount difference between the first activity amount data and the second activity amount data is larger than a preset activity amount threshold value and the first activity amount data is smaller than the second activity amount data;
when the activity amount difference value between the first activity amount data and the second activity amount data is larger than a preset activity amount threshold value and the first activity amount data is larger than the second activity amount data, outputting a corresponding third core body temperature threshold value through a preset personal model;
when the first activity amount data and the second activity amount data are equal, comparing the first activity amount data and the second activity amount data with the preset activity amount threshold value respectively, and outputting a corresponding fourth core body temperature threshold value through a preset personal model according to a comparison result.
Further, the method further comprises the following steps:
respectively acquiring first external temperature and humidity corresponding to the first mark and second external temperature and humidity corresponding to the second mark;
if the first external temperature and humidity and/or the second external temperature and humidity are not within the preset first external temperature and humidity threshold range, outputting a corresponding second external temperature and humidity threshold range through the personal model, and outputting a corresponding personal core body temperature threshold based on the preset activity threshold and the second external temperature and humidity threshold range;
if the first external temperature and humidity and the second external temperature and humidity are within the preset first external temperature and humidity threshold range, outputting a corresponding third external temperature and humidity threshold range through the personal model, and outputting a corresponding personal core body temperature threshold based on the preset activity threshold and the third external temperature and humidity threshold range.
Further, the method further comprises the following steps:
when feedback of a user on the first tag flag and the first reminding signal is received, judging whether a third time difference value between the receiving time for receiving the feedback and the output time for outputting the first tag flag and the first reminding signal exceeds a preset second time threshold;
If the third time difference value does not exceed the preset second time threshold, judging that the user is in a conscious state, and establishing a feedback type tag flag;
if the third time difference value exceeds a preset second time threshold, lifting abnormal grades of heart rate data and/or core body temperature of the user, and outputting a corresponding alarm type second tag flag and a second reminding signal;
judging whether the third time difference value exceeds a preset third duration threshold value or not;
and if the third time difference value exceeds a preset third time threshold, judging that the user is in an unconscious state.
Further, the method further comprises the following steps:
acquiring personal information of a user, and acquiring vital sign data of the user under different actions;
comparing vital sign data of the user under different actions with corresponding vital sign theoretical data respectively, adaptively adjusting the vital sign data of the user under different actions according to comparison results, and constructing a personal model of the user according to adjustment results;
outputting a preset heart rate threshold value, a preset core temperature threshold value and a preset activity threshold value range of a user by using the personal model; and
based on the activity comparison result, outputting a corresponding external temperature and humidity threshold range and a corresponding personal core body temperature threshold by using the personal model.
The embodiment of the invention also provides wearable equipment, which comprises:
the first acquisition unit is used for acquiring first heart rate data, first core body temperature data and first activity data of a user, judging whether the first heart rate data is higher than a preset heart rate threshold value or not and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not;
the first establishing unit is used for establishing a first mark when the first heart rate data is higher than a preset heart rate threshold value and/or the first core body temperature data is higher than a preset first core body temperature threshold value;
the first judging unit is used for continuously collecting second heart rate data, second core body temperature data and second activity data of the user, judging whether the second heart rate data is higher than a preset heart rate threshold value range or not and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not;
the second judging unit is used for judging whether a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time length threshold value or not when the second heart rate data is higher than a preset heart rate threshold value and/or the second core body temperature data is higher than a preset first core body temperature threshold value;
The second establishing unit is used for establishing a second mark if the first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data does not exceed a preset first time length threshold value;
a first threshold output unit for comparing the activity difference between the first activity amount data and the second activity amount data with a preset activity amount threshold based on the first mark and the second mark, and then outputting a corresponding personal core body temperature threshold through a preset personal model based on the activity amount comparison result
The first comparison unit is used for comparing the first core body temperature data and the second core body temperature data with the personal core body temperature threshold value respectively, judging whether the body temperature data of the user are normal according to the core body temperature comparison result, outputting a corresponding first tag flag and a first reminding signal, and displaying the first tag flag and the first reminding signal on the wearable device and terminal equipment associated with the wearable device.
Further, the method further comprises the following steps:
and the second acquisition unit is used for continuously acquiring the current heart rate data and the current core body temperature data of the user if the first heart rate data of the user is not higher than a preset heart rate threshold value and the first core body temperature data is not higher than a preset first core body temperature threshold value, judging whether the current heart rate data is higher than the preset heart rate threshold value and judging whether the current core body temperature data is higher than the preset first core body temperature threshold value or not until the current heart rate data is higher than the preset heart rate threshold value and/or the current core body temperature data is higher than the preset first core body temperature threshold value, then establishing a current mark, and taking the current mark as the first mark.
Further, the second judging unit includes:
the third acquisition unit is used for continuously acquiring third heart rate data, third core body temperature data and third activity data of a user when a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold value, judging whether the third heart rate data is higher than a preset heart rate threshold value and judging whether the third core body temperature data is higher than a preset first core body temperature threshold value;
a third establishing unit, configured to reestablish a first flag if the third heart rate data is higher than a preset heart rate threshold and/or the third core body temperature data is higher than a preset first core body temperature threshold;
the fourth acquisition unit is used for continuously acquiring fourth heart rate data, fourth core body temperature data and fourth activity data of a user, judging whether the fourth heart rate data is higher than a preset heart rate threshold value or not and judging whether the fourth core body temperature data is higher than a preset first core body temperature threshold value or not;
and the third judging unit is used for judging whether a second time difference value between the acquisition time of the third heart rate data and the acquisition time of the fourth heart rate data exceeds a preset first time length threshold value or not if the fourth heart rate data is higher than a preset heart rate threshold value and/or the third core body temperature data is higher than a preset first core body temperature threshold value.
The embodiment of the invention provides a monitoring method for heatstroke and dizziness and faint caused by heat and wearable equipment, and the method comprises the following steps: collecting first heart rate data, first core body temperature data and first activity data of a user, judging whether the first heart rate data is higher than a preset heart rate threshold value or not, and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not; when the first heart rate data is higher than a preset heart rate threshold value and/or the first core body temperature data is higher than a preset first core body temperature threshold value, a first mark is established; continuously collecting second heart rate data, second core body temperature data and second activity data of a user, judging whether the second heart rate data is higher than a preset heart rate threshold value range or not and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not; when the second heart rate data is higher than a preset heart rate threshold value and/or the second core body temperature data is higher than a preset first core body temperature threshold value, judging whether a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time length threshold value; if the first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data does not exceed a preset first time length threshold value, a second mark is established; comparing the activity difference value between the first activity amount data and the second activity amount data with a preset activity amount threshold value based on the first mark and the second mark, and then outputting a corresponding personal core body temperature threshold value through a preset personal model based on an activity amount comparison result; comparing the first core body temperature data and the second core body temperature data with the personal core body temperature threshold value respectively, judging whether the body temperature data of a user are normal according to the core body temperature comparison result, outputting a corresponding first tag flag and a first reminding signal, and displaying the first tag flag and the first reminding signal on wearable equipment and terminal equipment associated with the wearable equipment. The embodiment of the invention realizes the real-time monitoring and judgment of the heart rate data and the core body temperature data of the user by comparing the heart rate data and the preset heart rate threshold value, the core body temperature data and the preset body temperature threshold value of the user and the activity data and the preset activity threshold value, so as to achieve the effect of timely alarming.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
Fig. 1 is a schematic flow chart of a monitoring method for heatstroke and dizziness and motion sickness caused by heat according to an embodiment of the invention;
fig. 2 is a schematic sub-flowchart of a monitoring method for heatstroke and dizziness and motion sickness caused by heat according to an embodiment of the present invention;
FIG. 3 is a schematic block diagram of a wearable device provided by an embodiment of the present invention;
fig. 4 is a sub-schematic block diagram of a wearable device according to an embodiment of the present invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.
It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.
It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.
Referring to fig. 1, fig. 1 is a schematic flow chart of a method for monitoring heatstroke and dizziness and motion sickness caused by heat, which specifically includes: steps S101 to S107.
S101, collecting first heart rate data, first core body temperature data and first activity data of a user, judging whether the first heart rate data is higher than a preset heart rate threshold value or not, and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not;
s102, when the first heart rate data is higher than a preset heart rate threshold value and/or the first core body temperature data is higher than a preset first core body temperature threshold value, a first mark is established;
s103, continuously collecting second heart rate data, second core body temperature data and second activity data of a user, judging whether the second heart rate data is higher than a preset heart rate threshold value range or not and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not;
s104, judging whether a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time length threshold value or not when the second heart rate data is higher than a preset heart rate threshold value and/or the second core body temperature data is higher than a preset first core body temperature threshold value;
s105, if a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data does not exceed a preset first time length threshold value, a second mark is established;
S106, comparing the activity difference value between the first activity amount data and the second activity amount data with a preset activity amount threshold value based on the first mark and the second mark, and outputting a corresponding personal core body temperature threshold value through a preset personal model based on an activity amount comparison result;
s107, comparing the first core body temperature data and the second core body temperature data with the personal core body temperature threshold value respectively, judging whether the body temperature data of the user are normal according to the core body temperature comparison result, outputting a corresponding first tag flag and a first reminding signal, and displaying the first tag flag and the first reminding signal on wearable equipment and terminal equipment associated with the wearable equipment.
In this embodiment, when the user wears the wearable device and monitors whether an abnormality (such as an abnormal heart rate, abnormal core body temperature, etc.) occurs in the user, first heart rate data, first core body temperature data, and first activity data of the user are collected first, whether the first heart rate data is higher than a preset heart rate threshold (such as 100bpm, etc.) and whether the first core body temperature data is higher than a preset first core body temperature threshold (such as 37.2 ℃), etc.), and if the first heart rate data is higher than the preset heart rate threshold, and/or the first core body temperature data is higher than the preset first core body temperature threshold, a first flag is established, for example, through which the first heart rate data, a collection time corresponding to the first core body temperature data, the first activity data, etc. can be determined. And then continuously acquiring second heart rate data, second core body temperature data and second activity data of the user, judging the second heart rate data and the second core body temperature data, if the second heart rate data is higher than a preset heart rate threshold value and/or the second core body temperature data is higher than a preset first core body temperature threshold value, calculating a first time difference between acquisition time corresponding to the second heart rate data (the second core body temperature data) and acquisition time corresponding to the first heart rate data (the first core body temperature data), judging whether the first time difference exceeds a preset first time threshold value, if the first time difference does not exceed the preset first time threshold value, indicating that the heart rate data of the user is higher than the preset heart rate threshold value and/or the core body temperature data is higher than the preset body temperature threshold value for a plurality of times in a short time (namely, the preset first time threshold value), and establishing a second mark to record the corresponding second heart rate data, the second core body temperature data, the second activity data and the acquisition time of the second heart rate data and the like. Judging the activity data of the user according to the first mark and the second mark, outputting a personal core body temperature threshold corresponding to the user through a preset personal model, comparing the first core body temperature data and the second core body temperature data with the personal core body temperature threshold, determining whether the core body temperature of the user is normal according to the core body temperature comparison, and outputting a corresponding first tag flag and a first reminding signal, wherein the first tag flag can refer to marks such as heart rate data, core body temperature data and activity data of the user at the moment, and whether the user is in a heatstroke state or dizziness and motion sickness state caused by heat, and the first reminding signal can be used for reminding the user to pay attention to current heart rate data, core body temperature data, activity data and the like.
It should be noted that, the preset heart rate threshold in this embodiment may be a range where heart rate data of the user is normal, and the above of the preset heart rate threshold may be understood as exceeding the preset heart rate threshold range, that is, the meaning of below of the preset heart rate threshold is the same as the meaning of exceeding the preset heart rate threshold in this embodiment. Similarly, the preset body temperature threshold in this embodiment may be a range in which body temperature data of the user is normal, and the above of the preset first core body temperature threshold may be understood as exceeding the preset first core body temperature threshold, that is, the meaning of below of the preset first core body temperature threshold is the same as the meaning of exceeding the preset first core body temperature threshold in this embodiment. In addition, the core temperature in this embodiment refers to the core temperature in the human body, which is also called as the core temperature, and the body temperature in medicine refers to the core temperature in the human body.
It should be noted that, although the present embodiment only determines whether the heart rate data of the user is normal through two marks, in an actual application scenario, whether the core body temperature data of the user is normal may be determined by performing a determination comparison on the heart rate data and the core body temperature data marked multiple times according to specific requirements. In addition, after the first tag flag in this embodiment is output, the first tag flag may be displayed on the wearable device and a terminal device associated with the wearable device, such as a computer device, a mobile phone terminal, and so on, with an icon (e.g., a flag icon). Further, as for the first mark, the second mark, and the like described in the present embodiment, it may be displayed on the wearable device and the terminal device associated with the wearable device as well, and based on the number of marks, the icon of the tag flag may be made up of each mark, for example, a flag shape, a triangle shape, and the like made up of a plurality of marks.
According to the embodiment, the heart rate data and the core body temperature data of the user are acquired and judged for multiple times, the corresponding activity data are acquired and judged for multiple times, the marks are built when the heart rate data are higher than the preset heart rate threshold value and/or the core body temperature data are higher than the preset body temperature threshold value, whether the heart rate data and the core body temperature data of the user are normal or not is judged according to the heart rate data, the core body temperature data, the activity data, the acquisition time and the like corresponding to different marks, and accordingly corresponding judging results, namely the first tag flag and the first reminding signal, are output, so that real-time monitoring and judging of the heart rate data and the core body temperature data of the user are achieved, and the effect of timely alarming is achieved. Further, when the user makes corresponding feedback to the first tag flag and the first reminding signal, for example, the user confirms that an abnormality occurs, the abnormal feedback can be sent out timely, for example, to an emergency contact person of the user.
In one embodiment, the method for monitoring heatstroke and dizziness and faint caused by heat further comprises:
if the first heart rate data of the user is not higher than the preset heart rate threshold value and the first core body temperature data is not higher than the preset first core body temperature threshold value, continuing to acquire the current heart rate data and the current core body temperature data of the user, judging whether the current heart rate data is in a preset heart rate threshold value range or not and judging whether the current core body temperature data is higher than the preset first core body temperature threshold value or not, until the current heart rate data is higher than the preset heart rate threshold value and/or the current core body temperature data is higher than the preset first core body temperature threshold value, then establishing a current mark, and taking the current mark as the first mark.
In this embodiment, when the first heart rate data of the user is not higher than the preset heart rate threshold and the first core body temperature data is not higher than the preset first core body temperature threshold, it is indicated that the heart rate data and the core body temperature data of the user are normal at this time, so that the first mark is not required to be established for the first heart rate data and the first core body temperature data. And then continuously collecting the current heart rate data and the current core body temperature data of the user, continuously judging whether the current heart rate data of the user is higher than a preset heart rate threshold value and judging whether the current core body temperature data is higher than a preset body temperature threshold value, and the like until the current heart rate data of the user is not higher than the preset heart rate threshold value and the current core body temperature data is not higher than the preset body temperature threshold value, at the moment, establishing a corresponding current mark for marking the current heart rate data, the current core body temperature data, the corresponding collection time and activity data and the like.
In one embodiment, the step S104 includes:
when a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold, continuously acquiring third heart rate data, third core body temperature data and third activity data of a user, judging whether the third heart rate data is higher than a preset heart rate threshold or not and judging whether the third core body temperature data is higher than a preset first core body temperature threshold or not;
If the third heart rate data is higher than a preset heart rate threshold value and/or the third core body temperature data is higher than a preset first core body temperature threshold value, reestablishing a first mark;
continuously collecting fourth heart rate data, fourth core body temperature data and fourth activity data of a user, judging whether the fourth heart rate data is higher than a preset heart rate threshold value or not and judging whether the fourth core body temperature data is higher than a preset first core body temperature threshold value or not based on the third mark;
if the fourth heart rate data is higher than the preset heart rate threshold value and/or the third core body temperature data is higher than the preset first core body temperature threshold value, judging whether a second time difference value between the acquisition time of the third heart rate data and the acquisition time of the fourth heart rate data exceeds the preset first time threshold value.
In this embodiment, when determining whether the first time difference exceeds the preset first time threshold, if it is determined that the first time difference exceeds the preset first time threshold, it is indicated that the acquisition time intervals of the first heart rate data (the first core body temperature data) and the second heart rate data (the second core body temperature data) are longer, that is, although both the first heart rate data (the first core body temperature data) and the second heart rate data (the second core body temperature data) are higher than the preset heart rate threshold (or higher than the preset body temperature threshold), the heart rate data (the core body temperature data) of the user cannot be determined to be in an abnormal state according to the acquisition time intervals, and further monitoring and determination are required.
The method specifically may further include continuously collecting third heart rate data and third core body temperature data of the user, judging whether the third heart rate data is higher than a preset heart rate threshold value and judging whether the third core body temperature data is higher than a preset body temperature threshold value, if the third heart rate data is higher than the preset heart rate threshold value and/or the third core body temperature data is higher than the preset body temperature threshold value, reestablishing a first mark, continuously collecting fourth heart rate data and fourth core body temperature data of the user, judging whether the fourth heart rate data is higher than the preset heart rate threshold value and judging whether the fourth core body temperature data is higher than the preset body temperature threshold value, if the fourth heart rate data is higher than the preset heart rate threshold value and/or the fourth core body temperature data is higher than the preset body temperature threshold value, continuously establishing a second mark, and then judging whether a second time difference between the collection time of the third heart rate data (third core body temperature data) and the collection time of the fourth heart rate data (fourth core body temperature data) is higher than the preset first time threshold value based on the reestablished first mark and the second mark. Of course, if the second time difference value also exceeds the preset first time length threshold value, the fifth heart rate data, the fifth core body temperature data, the sixth heart rate data and the sixth core body temperature data of the user can be continuously acquired, corresponding first marks and second marks are reestablished when the second time difference value is higher than the preset threshold value, and then the time difference value is continuously compared with the preset first time length threshold value.
In one embodiment, the step S106 includes:
outputting a corresponding second core body temperature range through a preset personal model when the activity amount difference between the first activity amount data and the second activity amount data is larger than a preset activity amount threshold value and the first activity amount data is smaller than the second activity amount data;
when the activity amount difference value between the first activity amount data and the second activity amount data is larger than a preset activity amount threshold value and the first activity amount data is larger than the second activity amount data, outputting a corresponding third core body temperature threshold value through a preset personal model;
when the first activity amount data and the second activity amount data are equal, comparing the first activity amount data and the second activity amount data with the preset activity amount threshold value respectively, and outputting a corresponding fourth core body temperature threshold value through a preset personal model according to a comparison result.
In this embodiment, if the activity difference between the first activity amount data and the second activity amount data of the user is greater than the preset activity amount threshold and the first activity amount data is smaller than the second activity amount data, and meanwhile, the first core body temperature data and the second core body temperature data of the user both exceed the preset first core body temperature threshold, the personal model may output the personal core body temperature threshold (i.e., the second core body temperature threshold) corresponding to the activity amount threshold at this time, and compare the first core body temperature data and the second core body temperature data with the second core body temperature threshold respectively, and then determine whether the core body temperature data of the user at this time is normal according to the core body temperature comparison result;
If the activity difference between the first activity amount data and the second activity amount data of the user is greater than a preset activity amount threshold and the first activity amount data is greater than the second activity amount data, and meanwhile, the first core body temperature data and the second core body temperature data of the user both exceed the preset first core body temperature threshold, the personal model can output a personal core body temperature threshold (namely the third core body temperature threshold) corresponding to the activity amount threshold at the moment, the first core body temperature data and the second core body temperature data are compared with the third core body temperature threshold respectively, and then whether the core body temperature data of the user at the moment are normal or not is judged according to the core body temperature comparison result;
if the first activity amount data and the second activity amount data of the user are equal, and the first core body temperature data and the second core body temperature data of the user exceed the preset first core body temperature threshold, the personal model can output a personal core body temperature threshold (namely the fourth core body temperature threshold) corresponding to the activity amount threshold at the moment, the first core body temperature data and the second core body temperature data are compared with the fourth core body temperature threshold respectively, and whether the core body temperature data of the user at the moment are normal or not is judged according to the core body temperature comparison result.
It should be noted that, in this embodiment, different core body temperature thresholds are output by the personal model under the condition of different activity data according to the user, so that the accuracy of the judgment of the core body temperature data can be improved.
In an embodiment, further comprising:
respectively acquiring first external temperature and humidity corresponding to the first mark and second external temperature and humidity corresponding to the second mark;
if the first external temperature and humidity and/or the second external temperature and humidity are not within the preset first external temperature and humidity threshold range, outputting a corresponding second external temperature and humidity threshold range through the personal model, and outputting a corresponding personal core body temperature threshold based on the preset activity threshold and the second external temperature and humidity threshold range;
if the first external temperature and humidity and the second external temperature and humidity are within the preset first external temperature and humidity threshold range, outputting a corresponding third external temperature and humidity threshold range through the personal model, and outputting a corresponding personal core body temperature threshold based on the preset activity threshold and the third external temperature and humidity threshold range.
In this embodiment, the activity data of the user is combined with the corresponding external temperature and humidity, the corresponding external temperature and humidity threshold (i.e., the second external temperature and humidity threshold and the third temperature and humidity threshold) is output by the personal model, and the corresponding personal core body temperature threshold is further output based on the activity threshold and the second external temperature and humidity threshold, so that the personal core body temperature threshold more accords with the physical condition of the user and the corresponding external environment condition. Specifically, when the first external temperature and humidity and/or the second external temperature and humidity are not within a preset first external temperature and humidity threshold range, outputting a corresponding second external temperature and humidity threshold by the personal model, and then combining the second external temperature and humidity threshold with a preset activity threshold to output a corresponding personal core body temperature threshold; when the first external temperature and humidity and/or the second external temperature and humidity are/is within a preset first external temperature and humidity threshold range, outputting a corresponding third external temperature and humidity threshold by the personal model, and then combining the third external temperature and humidity threshold and a preset activity threshold, and outputting a corresponding personal core body temperature threshold.
In one embodiment, as shown in fig. 2, the method for monitoring heatstroke and dizziness and faint caused by heat further includes: steps S201 to S205.
S201, when feedback of a user on the first tag flag and the first reminding signal is received, judging whether a third time difference value between the receiving time for receiving the feedback and the output time for outputting the first tag flag and the first reminding signal exceeds a preset second duration threshold value;
s202, if the third time difference value does not exceed a preset second time threshold, judging that the user is in a conscious state, and establishing a feedback type tag flag;
s203, if the third time difference exceeds a preset second time threshold, lifting abnormal grades of heart rate data and/or core body temperature of the user, and outputting a corresponding alarm type second tag flag and a second reminding signal;
s204, judging whether the third time difference value exceeds a preset third duration threshold value;
s205, if the third time difference exceeds a preset third time threshold, determining that the user is in an unconscious state.
In this embodiment, after receiving feedback information of the user, a determination is made on feedback time of the user, that is, whether a third time difference between the receiving time of receiving the feedback and the output time of outputting the first tag flag exceeds a preset second duration threshold value is determined. If the third time difference value does not exceed the preset second time threshold, the feedback time of the user on the first tag flag and the first reminding signal is short, and therefore the user can be judged to be in a conscious state. If the third time difference exceeds the preset second time threshold, the feedback time of the user on the first tag flag and the first reminding signal is longer, and the abnormal level of heart rate data and/or core body temperature data of the user can be improved accordingly. Further, the third time difference value is compared with a preset third time duration threshold value, if the third time difference value exceeds the preset third time duration threshold value, the user is possibly in an unconscious state, and at the same time, heart rate data and/or core body temperature data of the user are/is judged to be too high, for example, the user is judged to have symptoms such as heat loss or heat shooting disease. It can be appreciated that the preset second duration threshold value described in this embodiment is smaller than the third duration threshold value. In addition, the embodiment enables the output result to be more visual and more in line with the corresponding scene information by outputting different types of tag flags, namely, the alarm type tag flag and the feedback type tag flag.
In one embodiment, the method for monitoring heatstroke and dizziness and faint caused by heat further comprises:
acquiring personal information of a user, and acquiring vital sign data of the user under different actions;
comparing vital sign data of the user under different actions with corresponding vital sign theoretical data respectively, adaptively adjusting the vital sign data of the user under different actions according to comparison results, and constructing a personal model of the user according to adjustment results;
outputting a preset heart rate threshold value, a preset core temperature threshold value and a preset activity threshold value range of a user by using the personal model; and
based on the activity comparison result, outputting a corresponding external temperature and humidity threshold range and a corresponding personal core body temperature threshold by using the personal model.
In this embodiment, a personal model of the user is constructed to obtain a preset heart rate threshold range, a preset core temperature threshold and a preset activity threshold range of the user. Specifically, a personal account number is first registered by a user, and personal information such as age, sex, height, weight, body Mass Index (BMI), occupation category, usual amount of exercise, medical history, bad habit, genetic/ethnic history, and the like is selectively filled in. Then, setting a data acquisition time range, indoor and outdoor environment temperature and humidity/illuminance and the like, for example, setting: the time range is 1 hour, the indoor temperature is 25 ℃, the humidity is 40% or the setting is that: the time range is 1 hour, the outdoor temperature is 40 ℃, the humidity is 80%, the illuminance is 10000lux, and the like, and the user can complete different actions so as to acquire data under different states. For example, the user's individual is kept "standing" in motion, the individual is put to "sleeping", the individual is kept "lying down" in motion, the individual is "walking" (e.g. at a speed of 3 km/h), the individual is "jogging" (e.g. at a speed of 5 km/h), the individual is "jogging" (e.g. at a speed of 9-30 km/h), etc., and data are collected by various sensors, such as PPG (photoplethysmography) signals and/or ECG (electrocardiogram) signals and/or heart rate/blood pressure measurements and/or blood oxygen measurements and/or external body temperature/or internal/core body temperature/humidity, etc., while the user may feed back discomfort during the execution of the above-mentioned motion, establish a corresponding discomfort tag flag based on the received discomfort feedback, to mark the time, motion, data, etc. at which the user is uncomfortable.
And comparing the acquired vital sign data with corresponding vital sign theoretical data, finding out the difference value and/or percentage of each vital sign, adaptively adjusting the vital sign data of the user under different actions according to the comparison result, and constructing a personal model of the user according to the adjusted data. The personal model can output the preset heart rate threshold value, the preset core temperature threshold value, the preset activity threshold value range and the like of the user. In addition, the personal model in this embodiment may further output different heart rate threshold ranges, core body temperature thresholds, and so on, such as a second core body temperature range, a third core body temperature threshold, according to different activity data and external temperature and humidity thresholds.
Furthermore, vital sign data of the user under different actions are acquired for multiple times, and the constructed personal model is optimized and adjusted according to the vital sign data acquired for multiple times, so that a more accurate preset heart rate threshold value, a preset core temperature threshold value and a preset activity threshold value range are output.
Fig. 3 is a schematic block diagram of a wearable device 300 provided by an embodiment of the present invention, where the wearable device 300 includes:
the first acquisition unit 301 is configured to acquire first heart rate data, first core body temperature data, and first activity data of a user, and determine whether the first heart rate data is higher than a preset heart rate threshold value and determine whether the first core body temperature data is higher than a preset first core body temperature threshold value;
A first establishing unit 302, configured to establish a first flag when the first heart rate data is higher than a preset heart rate threshold and/or the first core body temperature data is higher than a preset first core body temperature threshold;
a first judging unit 303, configured to continuously collect second heart rate data, second core body temperature data, and second activity data of a user, and judge whether the second heart rate data is higher than a preset heart rate threshold value range and judge whether the first core body temperature data is higher than a preset first core body temperature threshold value;
a second judging unit 304, configured to judge whether a first time difference between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold when the second heart rate data is higher than a preset heart rate threshold and/or the second core body temperature data is higher than a preset first core body temperature threshold;
a second establishing unit 305, configured to establish a second flag if the first time difference between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data does not exceed a preset first time length threshold;
a first threshold output unit 306, configured to compare, based on the first flag and the second flag, a activity amount difference between the first activity amount data and the second activity amount data with a preset activity amount threshold, and then output, based on the activity amount comparison result, a corresponding personal core body temperature threshold through a preset personal model;
The first comparing unit 307 is configured to compare the first core body temperature data and the second core body temperature data with the personal core body temperature threshold value, determine whether the body temperature data of the user is normal according to the core body temperature comparison result, output a corresponding first tag flag and a first reminding signal, and display the first tag flag and the first reminding signal on the wearable device and a terminal device associated with the wearable device.
In an embodiment, the wearable device 300 further comprises:
and the second acquisition unit is used for continuously acquiring the current heart rate data and the current core body temperature data of the user if the first heart rate data of the user is not higher than a preset heart rate threshold value and the first core body temperature data is not higher than a preset first core body temperature threshold value, judging whether the current heart rate data is higher than the preset heart rate threshold value and judging whether the current core body temperature data is higher than the preset first core body temperature threshold value or not until the current heart rate data is higher than the preset heart rate threshold value and/or the current core body temperature data is higher than the preset first core body temperature threshold value, then establishing a current mark, and taking the current mark as the first mark.
In an embodiment, the second determining unit 305 includes:
the third acquisition unit is used for continuously acquiring third heart rate data, third core body temperature data and third activity data of a user when a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold value, judging whether the third heart rate data is higher than a preset heart rate threshold value and judging whether the third core body temperature data is higher than a preset first core body temperature threshold value;
a third establishing unit, configured to reestablish a first flag if the third heart rate data is higher than a preset heart rate threshold and/or the third core body temperature data is higher than a preset first core body temperature threshold;
the fourth acquisition unit is used for continuously acquiring fourth heart rate data, fourth core body temperature data and fourth activity data of a user, judging whether the fourth heart rate data is higher than a preset heart rate threshold value or not and judging whether the fourth core body temperature data is higher than a preset first core body temperature threshold value or not;
and the third judging unit is used for judging whether a second time difference value between the acquisition time of the third heart rate data and the acquisition time of the fourth heart rate data exceeds a preset first time length threshold value or not if the fourth heart rate data is higher than a preset heart rate threshold value and/or the third core body temperature data is higher than a preset first core body temperature threshold value.
In an embodiment, the first threshold output unit 306 includes:
a second threshold output unit, configured to output a corresponding second core body temperature range through a preset personal model when a difference in activity level between the first activity level data and the second activity level data is greater than a preset activity level threshold and the first activity level data is less than the second activity level data;
a third threshold output unit, configured to output a corresponding third core body temperature threshold through a preset personal model when the activity level difference between the first activity level data and the second activity level data is greater than a preset activity level threshold and the first activity level data is greater than the second activity level data;
and the fourth threshold output unit is used for comparing the first activity amount data and the second activity amount data with the preset activity amount threshold respectively when the first activity amount data and the second activity amount data are equal, and outputting a corresponding fourth core body temperature threshold through a preset personal model according to a comparison result.
In an embodiment, the wearable device 300 comprises:
an external temperature and humidity acquisition unit configured to acquire a first external temperature and humidity corresponding to the first mark and a second external temperature and humidity corresponding to the second mark, respectively;
The first range output unit is used for outputting a corresponding second external temperature and humidity threshold range through the personal model if the first external temperature and humidity and/or the second external temperature and humidity are not in a preset first external temperature and humidity threshold range, and outputting a corresponding personal core body temperature threshold value based on the preset activity threshold value and the second external temperature and humidity threshold range;
and the second range output unit is used for outputting a corresponding third external temperature and humidity threshold range through the personal model if the first external temperature and humidity and the second external temperature and humidity are within a preset first external temperature and humidity threshold range, and outputting a corresponding personal core body temperature threshold based on the preset activity threshold and the third external temperature and humidity threshold range.
In an embodiment, as shown in fig. 4, the wearable device 300 further includes:
a receiving unit 401, configured to, when receiving feedback from the user on the first tag flag and the first alert signal, determine whether a third time difference between a receiving time of receiving the feedback and an output time of outputting the first tag flag and the first alert signal exceeds a preset second duration threshold;
A first determining unit 402, configured to determine that the user is in a conscious state if the third time difference value does not exceed a preset second duration threshold, and establish a feedback tag flag;
a lifting unit 403, configured to lift the abnormal level of the heart rate data and/or the core body temperature of the user if the third time difference exceeds a preset second duration threshold, and output a corresponding alarm type second tag flag and a second reminding signal;
a fourth determining unit 404, configured to determine whether the third time difference exceeds a preset third duration threshold;
and the second determining unit 405 is configured to determine that the user is in an unconscious state if the third time difference exceeds a preset third duration threshold.
In an embodiment, the wearable device 300 further comprises:
the personal information acquisition unit is used for acquiring personal information of a user and acquiring vital sign data of the user under different actions;
the second comparison unit is used for comparing vital sign data of the user under different actions with corresponding vital sign theoretical data respectively, adaptively adjusting the vital sign data of the user under different actions according to comparison results, and constructing a personal model of the user according to adjustment results;
The first utilization unit is used for outputting a preset heart rate threshold value, a preset core temperature threshold value and a preset activity threshold value range of a user by utilizing the personal model; and
the first utilization unit is used for outputting a corresponding external temperature and humidity threshold range and a corresponding personal core body temperature threshold value by utilizing the personal model based on the activity comparison result.
Since the embodiments of the wearable device portion and the embodiments of the method portion correspond to each other, the embodiments of the wearable device portion refer to the description of the embodiments of the method portion, which is not repeated herein.
In the description, each embodiment is described in a progressive manner, and each embodiment is mainly described by the differences from other embodiments, so that the same similar parts among the embodiments are mutually referred. For the system disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section. It should be noted that it would be obvious to those skilled in the art that various improvements and modifications can be made to the present application without departing from the principles of the present application, and such improvements and modifications fall within the scope of the claims of the present application.
It should also be noted that in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Claims (10)

1. A method for monitoring heatstroke and dizziness and motion sickness caused by heat, which is characterized by comprising the following steps:
collecting first heart rate data, first core body temperature data and first activity data of a user, judging whether the first heart rate data is higher than a preset heart rate threshold value or not, and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not;
When the first heart rate data is higher than a preset heart rate threshold value and/or the first core body temperature data is higher than a preset first core body temperature threshold value, a first mark is established;
continuously collecting second heart rate data, second core body temperature data and second activity data of a user, judging whether the second heart rate data is higher than a preset heart rate threshold value or not and judging whether the second core body temperature data is higher than a preset first core body temperature threshold value or not;
when the second heart rate data is higher than a preset heart rate threshold value and/or the second core body temperature data is higher than a preset first core body temperature threshold value, judging whether a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time length threshold value;
if the first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data does not exceed a preset first time length threshold value, a second mark is established;
comparing the activity difference value between the first activity amount data and the second activity amount data with a preset activity amount threshold value based on the first mark and the second mark, and then outputting a corresponding personal core body temperature threshold value through a preset personal model based on an activity amount comparison result;
Comparing the first core body temperature data and the second core body temperature data with the personal core body temperature threshold value respectively, judging whether the body temperature data of a user are normal according to the core body temperature comparison result, outputting a corresponding first tag flag and a first reminding signal, and displaying the first tag flag and the first reminding signal on wearable equipment and terminal equipment associated with the wearable equipment.
2. The method for monitoring heatstroke and thermally induced dizziness and motion sickness of claim 1, further comprising:
if the first heart rate data of the user is not higher than the preset heart rate threshold value and the first core body temperature data is not higher than the preset first core body temperature threshold value, continuing to acquire the current heart rate data and the current core body temperature data of the user, judging whether the current heart rate data is higher than the preset heart rate threshold value and judging whether the current core body temperature data is higher than the preset first core body temperature threshold value or not, until the current heart rate data is higher than the preset heart rate threshold value and/or the current core body temperature data is higher than the preset first core body temperature threshold value, then establishing a current mark, and taking the current mark as the first mark.
3. The method for monitoring heatstroke and dizziness due to heat according to claim 1, wherein when the second heart rate data is higher than a preset heart rate threshold and/or the second core body temperature data is higher than a preset first core body temperature threshold, determining whether a first time difference between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold comprises:
when a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold, continuously acquiring third heart rate data, third core body temperature data and third activity data of a user, judging whether the third heart rate data is higher than a preset heart rate threshold or not and judging whether the third core body temperature data is higher than a preset first core body temperature threshold or not;
if the third heart rate data is higher than a preset heart rate threshold value and/or the third core body temperature data is higher than a preset first core body temperature threshold value, reestablishing a first mark;
continuously collecting fourth heart rate data, fourth core body temperature data and fourth activity data of a user, judging whether the fourth heart rate data is higher than a preset heart rate threshold value or not and judging whether the fourth core body temperature data is higher than a preset first core body temperature threshold value or not;
If the fourth heart rate data is higher than the preset heart rate threshold value and/or the third core body temperature data is higher than the preset first core body temperature threshold value, judging whether a second time difference value between the acquisition time of the third heart rate data and the acquisition time of the fourth heart rate data exceeds the preset first time threshold value.
4. The method for monitoring heatstroke and dizziness due to heat according to claim 1, wherein comparing the activity difference between the first activity amount data and the second activity amount data with a preset activity amount threshold based on the first and second markers, and then outputting a corresponding personal core body temperature threshold through a preset personal model based on the activity amount comparison result, comprises:
outputting a corresponding second core body temperature range through a preset personal model when the activity amount difference between the first activity amount data and the second activity amount data is larger than a preset activity amount threshold value and the first activity amount data is smaller than the second activity amount data;
when the activity amount difference value between the first activity amount data and the second activity amount data is larger than a preset activity amount threshold value and the first activity amount data is larger than the second activity amount data, outputting a corresponding third core body temperature threshold value through a preset personal model;
When the first activity amount data and the second activity amount data are equal, comparing the first activity amount data and the second activity amount data with the preset activity amount threshold value respectively, and outputting a corresponding fourth core body temperature threshold value through a preset personal model according to a comparison result.
5. The method for monitoring heatstroke and thermally induced dizziness and motion sickness of claim 4, further comprising:
respectively acquiring first external temperature and humidity corresponding to the first mark and second external temperature and humidity corresponding to the second mark;
if the first external temperature and humidity and/or the second external temperature and humidity are not within the preset first external temperature and humidity threshold range, outputting a corresponding second external temperature and humidity threshold range through the personal model, and outputting a corresponding personal core body temperature threshold based on the preset activity threshold and the second external temperature and humidity threshold range;
if the first external temperature and humidity and the second external temperature and humidity are within the preset first external temperature and humidity threshold range, outputting a corresponding third external temperature and humidity threshold range through the personal model, and outputting a corresponding personal core body temperature threshold based on the preset activity threshold and the third external temperature and humidity threshold range.
6. The method for monitoring heatstroke and thermally induced dizziness and motion sickness of claim 1, further comprising:
when feedback of a user on the first tag flag and the first reminding signal is received, judging whether a third time difference value between the receiving time for receiving the feedback and the output time for outputting the first tag flag and the first reminding signal exceeds a preset second time threshold;
if the third time difference value does not exceed the preset second time threshold, judging that the user is in a conscious state, and establishing a feedback type tag flag;
if the third time difference value exceeds a preset second time threshold, lifting abnormal grades of heart rate data and/or core body temperature of the user, and outputting a corresponding alarm type second tag flag and a second reminding signal;
judging whether the third time difference value exceeds a preset third duration threshold value or not;
and if the third time difference value exceeds a preset third time threshold, judging that the user is in an unconscious state.
7. The method for monitoring heatstroke and thermally induced dizziness and motion sickness of claim 1, further comprising:
acquiring personal information of a user, and acquiring vital sign data of the user under different actions;
Comparing vital sign data of the user under different actions with corresponding vital sign theoretical data respectively, adaptively adjusting the vital sign data of the user under different actions according to comparison results, and constructing a personal model of the user according to adjustment results;
outputting a preset heart rate threshold value, a preset core temperature threshold value and a preset activity threshold value range of a user by using the personal model; and
based on the activity comparison result, outputting a corresponding external temperature and humidity threshold range and a corresponding personal core body temperature threshold by using the personal model.
8. A wearable device, comprising:
the first acquisition unit is used for acquiring first heart rate data, first core body temperature data and first activity data of a user, judging whether the first heart rate data is higher than a preset heart rate threshold value or not and judging whether the first core body temperature data is higher than a preset first core body temperature threshold value or not;
the first establishing unit is used for establishing a first mark when the first heart rate data is higher than a preset heart rate threshold value and/or the first core body temperature data is higher than a preset first core body temperature threshold value;
the first judging unit is used for continuously collecting second heart rate data, second core body temperature data and second activity data of the user, judging whether the second heart rate data is higher than a preset heart rate threshold value or not and judging whether the second core body temperature data is higher than a preset first core body temperature threshold value or not;
The second judging unit is used for judging whether a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time length threshold value or not when the second heart rate data is higher than a preset heart rate threshold value and/or the second core body temperature data is higher than a preset first core body temperature threshold value;
the second establishing unit is used for establishing a second mark if the first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data does not exceed a preset first time length threshold value;
a first threshold output unit, configured to compare a activity level difference between the first activity level data and the second activity level data with a preset activity level threshold based on the first flag and the second flag, and then output a corresponding personal core body temperature threshold through a preset personal model based on the activity level comparison result;
the first comparison unit is used for comparing the first core body temperature data and the second core body temperature data with the personal core body temperature threshold value respectively, judging whether the body temperature data of the user are normal according to the core body temperature comparison result, outputting a corresponding first tag flag and a first reminding signal, and displaying the first tag flag and the first reminding signal on the wearable device and terminal equipment associated with the wearable device.
9. The wearable device of claim 8, further comprising:
and the second acquisition unit is used for continuously acquiring the current heart rate data and the current core body temperature data of the user if the first heart rate data of the user is not higher than a preset heart rate threshold value and the first core body temperature data is not higher than a preset first core body temperature threshold value, judging whether the current heart rate data is higher than the preset heart rate threshold value and judging whether the current core body temperature data is higher than the preset first core body temperature threshold value or not until the current heart rate data is higher than the preset heart rate threshold value and/or the current core body temperature data is higher than the preset first core body temperature threshold value, then establishing a current mark, and taking the current mark as the first mark.
10. The wearable device of claim 8, wherein the second determination unit comprises:
the third acquisition unit is used for continuously acquiring third heart rate data, third core body temperature data and third activity data of a user when a first time difference value between the acquisition time of the first heart rate data and the acquisition time of the second heart rate data exceeds a preset first time threshold value, judging whether the third heart rate data is higher than a preset heart rate threshold value and judging whether the third core body temperature data is higher than a preset first core body temperature threshold value;
A third establishing unit, configured to reestablish a first flag if the third heart rate data is higher than a preset heart rate threshold and/or the third core body temperature data is higher than a preset first core body temperature threshold;
the fourth acquisition unit is used for continuously acquiring fourth heart rate data, fourth core body temperature data and fourth activity data of a user, judging whether the fourth heart rate data is higher than a preset heart rate threshold value or not and judging whether the fourth core body temperature data is higher than a preset first core body temperature threshold value or not;
and the third judging unit is used for judging whether a second time difference value between the acquisition time of the third heart rate data and the acquisition time of the fourth heart rate data exceeds a preset first time length threshold value or not if the fourth heart rate data is higher than a preset heart rate threshold value and/or the third core body temperature data is higher than a preset first core body temperature threshold value.
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