CN115910258A - Health detection system based on intelligence is dressed - Google Patents

Abstract

The invention provides a health detection system based on intelligent wearing, which is characterized in that intelligent wearing equipment is configured for a plurality of users with health detection requirements and is used as an intelligent wearing equipment carrier node of the system to carry out health information interaction, when a specific intelligent wearing equipment carrier user interacts with other users, body information data and motion conditions of other users need to be referred, the health information of the users can be timely shared or hidden according to the three-dimensional data sharing priority of the system, the health information is obtained from a specific health information source user, and differentiated and personalized health detection strategies are locally customized based on the obtained health information, so that the dynamic health detection adjustment of the system users is realized under the condition of differentiated user function robustness, and the privacy and the safety of the system users when the intelligent wearing equipment is used are ensured.

Description

Health detection system based on intelligence is dressed

Technical Field

The invention belongs to the technical field of new-generation information, and particularly relates to a health detection system based on intelligent wearing.

Background

With the increasingly smaller size and the increasingly more enhanced functions of electronic portable devices, more and more intelligent wearable devices are beginning to be applied to various fields of technical production and daily life.

The smart wearable device is also referred to as a wearable device for short. The wearable device is in close contact with a user, can acquire various human body data, and provides interactive experiences in various aspects such as vision, touch, hearing, health monitoring and the like; the wearable device is an extension of the use habit of the mobile phone, the functions of partial message notification, music listening, calling, health detection and the like can be realized without taking out the mobile phone, the wearable device is convenient to use, and the wearable device can be developed to the direction of an independent mobile terminal in the future. Along with the development of scientific and technological progress and internet of things, the wearable equipment has higher and higher integration level, smaller and smaller volume and stronger practicability, so that people have more imaginative spaces for the future.

The support technology hidden by the intelligent wearable device also relates to multiple categories, such as software support, data interaction, cloud big data and other related industrial chains, and provides powerful technical support for popularization of the intelligent wearable device, so that functions such as health monitoring, data analysis, information feedback, solutions and the like are achieved.

Along with the deepening of medical treatment electronization, informatization development trend, the application of intelligence wearing equipment in the medical health field is also increasingly wide, and wherein, wearable intelligent health detection wrist-watch and bracelet are more stick up clearly in one's own. The intelligent watch is moderate in price, most of the intelligent watches have customized personalized dials, can simultaneously carry human health monitoring functions, is linked with an intelligent home, has a complete mobile phone function, and can be used independently without a mobile phone. The smart bracelet can be regarded as a simplified smart watch, functions of the smart bracelet are focused, and the smart bracelet is light in design.

The general intelligent wearable device only records the physical condition information of the user and is used for medical intervention judgment according to the information, the function logic is simple and single, the model and referential health tracking management mode of the user is not realized, meanwhile, the priority level of the user is single, and the locking function and the information hiding function of the user are not fully considered. The invention provides a health detection system based on intelligent wearing, which is characterized in that intelligent wearing equipment is configured for a plurality of users with health detection requirements and is used as an intelligent wearing equipment carrier node of the system to carry out health information interaction, when a specific intelligent wearing equipment carrier user interacts with other users, body information data and motion conditions of other users need to be referred, the health information of the users can be timely shared or hidden according to the three-dimensional data sharing priority of the system, the health information is obtained from a specific health information source user, and differentiated and personalized health detection strategies are locally customized based on the obtained health information, so that the dynamic health detection adjustment of the system users is realized under the condition of differentiated user function robustness, and the privacy and the safety of the system users when the intelligent wearing equipment is used are ensured.

Disclosure of Invention

The present invention aims to provide a health detection system based on smart wear that is superior to the prior art.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a health detection system based on smart wear, the system comprising:

the intelligent wearable device carriers are used for carrying users for the devices of the intelligent wearable device, the intelligent wearable device carriers have intelligent wearable device carrier priorities, and the intelligent wearable device carrier priorities are derived from system definitions of a health detection system;

the intelligent wearable devices are attached to the intelligent wearable device carriers one by one and record the intelligent wearable device carriers, namely, a mark data set and a motion data set of a user are carried by the devices of the intelligent wearable devices;

the marker data set is used to characterize body marker information of the user, the body marker information comprising at least: height/weight ratio, body fat rate;

the motion data set is used for characterizing motion information of the user, and the motion information at least comprises: number of walking/running steps in a cycle, walking/running time in a cycle, walking/running distance in a cycle;

the health detection system based on intelligent wearing acquires health information of the user through the intelligent wearing equipment, wherein the health information at least comprises a mark data set and a motion data set;

the first intelligent wearable device carrier has a first intelligent wearable device carrier priority, the first intelligent wearable device carrier priority is from a system algorithm of a health detection system, and the algorithm specifically is as follows:

the health detection system based on intelligent wearing determines a first priority setting parameter according to user system login information;

the health detection system based on intelligent wearing determines a second priority setting parameter according to the login authority of a user system;

the health detection system based on intelligent wearing determines the first intelligent wearing equipment carrier according to the first priority setting parameter and the second priority setting parameter, namely the priority of the first intelligent wearing equipment carrier of the equipment carrying user of the first intelligent wearing equipment;

when the first intelligent wearable device carrier, namely the device bearing user of the first intelligent wearable device, and the second intelligent wearable device carrier, namely the device bearing user of the second intelligent wearable device, approach to a specific distance threshold, the first intelligent wearable device and the second intelligent wearable device sense mutual near fields, perform interaction between device information of both parties and priority information of the first intelligent wearable device carrier and priority information of the second intelligent wearable device carrier, determine the priority of both parties, and then keep a two-way communication channel silent;

if the first intelligent wearable device carrier is a high-priority side, after a reference mark is started, the first intelligent wearable device can send a health information acquisition request to a second intelligent wearable device to acquire health information of the second intelligent wearable device carrier, wherein the health information comprises a mark data set and a motion data set;

the reference mark is automatically started when the high-priority party has the health information requirement of the low-priority party;

the first intelligent wearable device carrier determines whether the second intelligent wearable device marking data set is selected as a health detection template;

when the first intelligent wearable device carrier determines that the second intelligent wearable device mark data set is selected as a health detection template, taking the second intelligent wearable device motion data set as system health detection standard data;

the first intelligent wearable device detects the motion data set of the first intelligent wearable device carrier in a period, and if the motion data set of the first intelligent wearable device carrier does not exceed the system health detection standard data, a health detection alarm is sent to the first intelligent wearable device carrier.

Preferably, the health detection system based on intelligent wearing determines a first priority setting parameter according to the login information of the user system, specifically:

when the equipment bearing user of the first intelligent wearable equipment obtains the first intelligent wearable equipment, the equipment distribution server sets the user identification of the equipment bearing user; the user identification at least comprises a user ID and a user medical attention identification;

the user ID represents a user identity;

the user medical attention identification characterizes a degree of medical treatment that a user should be subjected to in the smart wear-based health detection system;

when a user logs in the system, a system administrator acquires a user ID and a user medical attention identifier, and determines corresponding first priority setting parameters based on the user medical attention identifier.

Preferably, the health detection system based on intelligent wearing determines a second priority setting parameter according to the login permission of the user system, specifically:

the equipment bearing user of the first intelligent wearable equipment acquires the user system login authority when the system is registered, and the user system login authority is preset by the system and is distributed to the user during registration;

the user system login authority at least comprises the following steps:

and (4) locking authority: when the lock authority is unlocked, the user is allowed to lock the health information to the local and not to share the health information, otherwise, the user is allowed to share the health information in the system users within a specific distance threshold;

hiding the authority: when the hidden permission is on, to allow a user to be imperceptible even if within a certain distance threshold from other users, and vice versa.

Preferably, the user medical attention identifier is at least divided into the following types:

a medical node identifier to characterize a user as only a medical participating node of the intelligent wear-based health detection system to collect health information thereof and share to other users under specific circumstances;

the medical monitoring mark is used for representing that the health information of a user needs to be collected when the user is in a conventional medical monitoring mode, and the health information is locally stored under the condition of not actively sharing;

and the medical focus mark is used for representing that the user needs to collect the health information and feed back the medical information when the user is in the key medical monitoring mode.

Preferably, the system administrator obtains the user ID and the user medical attention identifier, and determines the corresponding first priority setting parameter based on the user medical attention identifier, including at least:

and when the medical attention mark of the user is a medical node mark, determining that a first priority setting parameter of the medical attention mark is an information sharing level 1.

Preferably, the system administrator obtains the user ID and the user medical attention identifier, and determines the corresponding first priority setting parameter based on the user medical attention identifier, including at least:

and when the medical attention mark of the user is a medical monitoring mark, determining that a first priority setting parameter of the medical attention mark is an information sharing level 2.

Preferably, the system administrator obtains the user ID and the user medical attention identifier, and determines the corresponding first priority setting parameter based on the user medical attention identifier, including at least:

and when the medical attention mark of the user is a medical focus mark, determining that a first priority setting parameter of the medical attention mark is an information sharing level 3.

Preferably, collecting health information identified by the medical node and sharing the health information to other users under specific conditions at least comprises:

the user medical attention identifier of the other user is a medical monitoring identifier or a medical attention identifier;

the medical node identifies that the user is within a particular distance threshold from the other users.

Preferably, the period is set to 7 days or 30 days.

Preferably, the specific distance threshold is set to 10m.

The invention provides a health detection system based on intelligent wearing, which is characterized in that intelligent wearing equipment is configured for a plurality of users with health detection requirements and is used as an intelligent wearing equipment carrier node of the system to carry out health information interaction, when a specific intelligent wearing equipment carrier user interacts with other users, body information data and motion conditions of other users need to be referred, the health information of the users can be timely shared or hidden according to the three-dimensional data sharing priority of the system, the health information is obtained from a specific health information source user, and differentiated and personalized health detection strategies are locally customized based on the obtained health information, so that the dynamic health detection adjustment of the system users is realized under the condition of differentiated user function robustness, and the privacy and the safety of the system users when the intelligent wearing equipment is used are ensured.

Drawings

FIG. 1 is a basic system architecture diagram of a smart wear based health detection system shown in the present invention;

FIG. 2 is a schematic diagram of a system structure of a first intelligent wearable device carrier and modules of the health detection system based on intelligent wearing according to the present invention;

FIG. 3 is a schematic diagram of a system structure of a second intelligent wearable device carrier and the interconnection of modules of the health detection system based on intelligent wearing according to the present invention;

fig. 4 is a preferred embodiment of the interconnection of the first smart wearable device and the second smart wearable device of the health detection system based on smart wearing according to the present invention;

fig. 5 is a schematic diagram of a preferred embodiment of the present invention showing the interconnection of the platform side of the system with other system modules.

Detailed Description

Several embodiments and benefits of the intelligent wear-based health detection system and method as claimed herein are described in detail below to facilitate a more detailed review and decomposition of the present invention.

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention 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 understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be understood that although the terms first, second, etc. may be used in embodiments of the invention to describe methods and corresponding apparatus, these keywords should not be limited to these terms. These terms are only used to distinguish keywords from each other. For example, the first priority setting parameter, the first smart wearable device carrier, and the like may also be referred to as the second priority setting parameter, the second smart wearable device carrier, and similarly, the second priority setting parameter, the second smart wearable device carrier, and the like may also be referred to as the first priority setting parameter, the first smart wearable device carrier, and the like, without departing from the scope of the embodiments of the present invention.

The word "if" as used herein may be interpreted as "at 8230; \8230;" or "when 8230; \8230;" or "in response to a determination" or "in response to a detection", depending on the context. Similarly, the phrase "if determined" or "if detected (a stated condition or event)" may be interpreted as "upon determining" or "in response to determining" or "upon detecting (a stated condition or event)" or "in response to detecting (a stated condition or event)", depending on the context.

As shown in fig. 1-5 of the specification, one embodiment of the health detection system based on intelligent wearing claimed in the present invention and its specific embedded module includes:

the intelligent wearable device carriers are used for carrying users for devices of the intelligent wearable devices, the intelligent wearable device carriers have intelligent wearable device carrier priorities, and the intelligent wearable device carrier priorities are from system definitions of a health detection system;

the intelligent wearable devices are attached to the intelligent wearable device carriers one by one and record the intelligent wearable device carriers, namely, a mark data set and a motion data set of a user are carried by the devices of the intelligent wearable devices;

the marker data set is used to characterize body marker information of the user, the body marker information comprising at least: height/weight ratio, body fat rate;

the motion data set is used for characterizing motion information of the user, and the motion information at least comprises: number of walking/running steps in a cycle, walking/running time in a cycle, walking/running distance in a cycle;

the health detection system based on intelligent wearing acquires health information of the user through the intelligent wearing equipment, wherein the health information at least comprises a mark data set and a motion data set;

the first intelligent wearable device carrier has a first intelligent wearable device carrier priority, the first intelligent wearable device carrier priority is from a system algorithm of a health detection system, and the algorithm specifically is as follows:

the health detection system based on intelligent wearing determines a first priority setting parameter according to user system login information;

the health detection system based on intelligent wearing determines a second priority setting parameter according to the login authority of a user system;

the health detection system based on intelligent wearing determines a first intelligent wearing equipment carrier, namely the priority of a first intelligent wearing equipment carrier of a user borne by equipment of the first intelligent wearing equipment according to the first priority setting parameter and the second priority setting parameter;

when the first intelligent wearable device carrier, namely the device bearing user of the first intelligent wearable device, and the second intelligent wearable device carrier, namely the device bearing user of the second intelligent wearable device approach to a specific distance threshold value, the first intelligent wearable device and the second intelligent wearable device sense near fields mutually, perform interaction between device information of both parties and priority information of the first intelligent wearable device carrier and priority information of the second intelligent wearable device carrier, determine priority of both parties, and then keep a bidirectional communication channel silent;

if the first intelligent wearable device carrier is a high-priority side, after a reference mark is started, the first intelligent wearable device can send a health information acquisition request to a second intelligent wearable device to acquire health information of the second intelligent wearable device carrier, wherein the health information comprises a mark data set and a motion data set;

the reference mark is independently started when the high-priority party has the health information requirement of the low-priority party;

the first intelligent wearable device carrier determines whether the second intelligent wearable device marking data set is selected as a health detection template;

when the first intelligent wearable device carrier determines that the second intelligent wearable device mark data set is selected as a health detection template, taking the second intelligent wearable device motion data set as system health detection standard data;

the first intelligent wearable device detects the motion data set of the first intelligent wearable device carrier in a period, and if the motion data set of the first intelligent wearable device carrier does not exceed the system health detection standard data, a health detection alarm is sent to the first intelligent wearable device carrier.

As a preferred embodiment that can be superimposed, the health detection system based on intelligent wearing further includes a system platform, and the system platform is configured to send an intelligent wearing device carrier health information update instruction to each intelligent wearing device, and is configured to periodically feed back intelligent wearing device carrier health information to the system platform by each intelligent wearing device, and store and update the information at a platform end.

The system platform is further used for storing priority information of the intelligent wearable device carriers.

As a stackable preferred embodiment, the health detection system based on intelligent wearing determines a first priority setting parameter according to the login information of the user system, specifically:

when the equipment bearing user of the first intelligent wearable equipment obtains the first intelligent wearable equipment, the equipment distribution server sets the user identification of the equipment bearing user; the user identification at least comprises a user ID and a user medical attention identification;

the user ID characterizes a user identity;

the user medical attention identification characterizes a degree of medical treatment that a user should be subjected to in the smart wear-based health detection system;

when a user logs in the system, a system administrator acquires a user ID and a user medical attention identifier, and determines corresponding first priority setting parameters based on the user medical attention identifier.

As another stackable preferred embodiment, the health detection system based on intelligent wearing determines a second priority setting parameter according to the login authority of the user system, specifically:

the equipment bearing user of the first intelligent wearable equipment acquires the user system login authority when the system is registered, and the user system login authority is preset by the system and is distributed to the user during registration;

the user system login authority at least comprises:

and (4) locking the authority: when the lock authority is unlocked, the user is allowed to lock the health information to the local and not to share the health information, otherwise, the user is allowed to share the health information in the system users within a specific distance threshold;

hiding the authority: when the hidden permission is on, to allow a user to be imperceptible even if within a certain distance threshold from other users, and vice versa.

As another superimposable preferred embodiment, the medical attention mark of the user is at least divided into the following types:

a medical node identifier to characterize a user as only a medical participating node of the intelligent wear-based health detection system to collect health information thereof and share to other users under specific circumstances;

the medical monitoring mark is used for representing that the health information of a user needs to be collected when the user is in a conventional medical monitoring mode, and the health information is locally stored under the condition of not actively sharing;

and the medical focus mark is used for representing that the user needs to collect the health information and feed back the medical information when the user is in the key medical monitoring mode.

As another preferred embodiment that can be superimposed, the system administrator obtains the user ID and the user medical attention identifier, and determines the corresponding first priority setting parameter based on the user medical attention identifier, including at least:

and when the medical attention mark of the user is a medical node mark, determining that a first priority setting parameter of the medical attention mark is an information sharing level 1.

As another preferred embodiment that can be superimposed, the system administrator obtains the user ID and the user medical attention identifier, and determines the corresponding first priority setting parameter based on the user medical attention identifier, including at least:

and when the medical attention mark of the user is a medical monitoring mark, determining that a first priority setting parameter of the medical attention mark is an information sharing level 2.

As another preferred embodiment that can be superimposed, the system administrator obtains the user ID and the user medical attention identifier, and determines the corresponding first priority setting parameter based on the user medical attention identifier, including at least:

and when the medical attention mark of the user is a medical focus mark, determining that a first priority setting parameter of the medical attention mark is an information sharing level 3.

As a stackable preferred embodiment, the health detection system based on intelligent wearing determines the first intelligent wearing device carrier according to the first priority setting parameter and the second priority setting parameter, that is, the priority of the first intelligent wearing device carrier of the device bearing user of the first intelligent wearing device, specifically: the health detection system based on intelligent wearing determines a first priority setting parameter and a second priority setting parameter of the first intelligent wearing equipment carrier, and if the first priority setting parameter is an information sharing level 1, the second priority setting parameter is ignored and is directly set as a low priority; if the first priority setting parameter is the information sharing level 2, and the second priority setting parameter is the locking permission, and the hiding permission is closed, the second priority setting parameter is set as the next lower priority; if the first priority setting parameter is the information sharing level 2 and the second priority setting parameter is the lock permission unlocking, the first priority setting parameter is set as the medium priority; if the first priority setting parameter is the information sharing level 2, the second priority setting parameter is the locking permission switch, and the hidden permission is on, the second priority is set as the next highest priority; if the first priority setting parameter is the information sharing level 3, it is directly set as the high priority. The priority is sequentially from high to low: high priority, next high priority, medium priority, next low priority, low priority.

When the first intelligent wearable device carrier, namely the device bearing user of the first intelligent wearable device, and the second intelligent wearable device carrier, namely the device bearing user of the second intelligent wearable device, approach to within a specific distance threshold, mutual near-field perception of the first intelligent wearable device and the second intelligent wearable device is carried out, interaction of device information of both parties, the priority of the first intelligent wearable device carrier and the priority of the second intelligent wearable device carrier is carried out, and it is determined that the priority of both parties is high or low, but a two-way communication channel is silent. The user at the high priority side has the request authority for requesting to acquire the health information of the other side. And allows a high priority party to obtain the marker data set and the motion data set from a low priority party.

As another superimposable preferred embodiment, collecting health information identified by the medical node and sharing it to other users in specific cases includes at least:

the user medical attention identifier of the other user is a medical monitoring identifier or a medical attention identifier;

the medical node identifies that the user is within a particular distance threshold from the other users.

As another preferable embodiment that can be superimposed, the cycle is set to 7 days or 30 days. The specific distance threshold is set to 10m.

The invention provides a health detection system based on intelligent wearing, which is characterized in that intelligent wearing equipment is configured for a plurality of users with health detection requirements and is used as an intelligent wearing equipment carrier node of the system to carry out health information interaction, when a specific intelligent wearing equipment carrier user interacts with other users, body information data and motion conditions of other users need to be referred, the health information of the users can be timely shared or hidden according to the three-dimensional data sharing priority of the system, the health information is obtained from a specific health information source user, and differentiated and personalized health detection strategies are locally customized based on the obtained health information, so that the dynamic health detection adjustment of the system users is realized under the condition of differentiated user function robustness, and the privacy and the safety of the system users when the intelligent wearing equipment is used are ensured.

In all the above embodiments, in order to meet the requirements of some special data transmission and read/write functions, the above method and its corresponding devices may add devices, modules, devices, hardware, pin connections or memory and processor differences to expand the functions during the operation process.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described method, apparatus and unit may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the method steps into only one logical or functional division may be implemented in practice in another manner, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as steps of the method and device separation components may or may not be logically or physically separate, or may not be physical units, and may be located in one position, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, the method steps, the implementation thereof, and the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

The method and apparatus may be implemented as an integrated unit in the form of a software functional unit, and may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes several instructions to enable a computer device (which may be a personal computer, a server, or a network device) or a Processor (Processor) to execute some steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), an NVRAM, a magnetic disk, or an optical disk, and various media capable of storing program codes.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

It should be noted that: the above embodiments are only used to explain and illustrate the technical solution of the present invention more clearly, and not to limit 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; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A health detection system based on smart wear, the system comprising:

the intelligent wearable device carriers are used for carrying users for the devices of the intelligent wearable device, the intelligent wearable device carriers have intelligent wearable device carrier priorities, and the intelligent wearable device carrier priorities are derived from system definitions of a health detection system;

the intelligent wearable devices are attached to the intelligent wearable device carriers one by one and record the intelligent wearable device carriers, namely, a mark data set and a motion data set of a user are carried by the devices of the intelligent wearable devices;

the marker data set is used to characterize body marker information of the user, the body marker information comprising at least: height/weight ratio, body fat rate;

the motion data set is used for characterizing motion information of the user, and the motion information at least comprises: the number of steps walked/run in a cycle, the time walked/run in a cycle, the distance walked/run in a cycle;

the health detection system based on intelligent wearing acquires health information of the user through the intelligent wearing equipment, wherein the health information at least comprises a mark data set and a motion data set;

the first intelligent wearable device carrier has a first intelligent wearable device carrier priority, the first intelligent wearable device carrier priority is from a system algorithm of a health detection system, and the algorithm specifically is as follows:

the health detection system based on intelligent wearing determines a first priority setting parameter according to user system login information;

the health detection system based on intelligent wearing determines a second priority setting parameter according to the login authority of a user system;

the health detection system based on intelligent wearing determines a first intelligent wearing equipment carrier, namely the priority of a first intelligent wearing equipment carrier of a user borne by equipment of the first intelligent wearing equipment according to the first priority setting parameter and the second priority setting parameter;

when the first intelligent wearable device carrier, namely the device bearing user of the first intelligent wearable device, and the second intelligent wearable device carrier, namely the device bearing user of the second intelligent wearable device approach to a specific distance threshold value, the first intelligent wearable device and the second intelligent wearable device sense near fields mutually, perform interaction between device information of both parties and priority information of the first intelligent wearable device carrier and priority information of the second intelligent wearable device carrier, determine priority of both parties, and then keep a bidirectional communication channel silent;

if the first intelligent wearable device carrier is a high-priority side, after a reference mark is started, the first intelligent wearable device can send a health information acquisition request to a second intelligent wearable device to acquire health information of the second intelligent wearable device carrier, wherein the health information comprises a mark data set and a motion data set;

the reference mark is automatically started when the high-priority party has the health information requirement of the low-priority party;

the first intelligent wearable device carrier determines whether the second intelligent wearable device marking data set is selected as a health detection template;

when the first intelligent wearable device carrier determines that the second intelligent wearable device mark data set is selected as a health detection template, taking the second intelligent wearable device motion data set as system health detection standard data;

the first intelligent wearable device detects the motion data set of the first intelligent wearable device carrier in a period, and if the motion data set of the first intelligent wearable device carrier does not exceed the system health detection standard data, a health detection alarm is sent to the first intelligent wearable device carrier.

2. The intelligent wearing-based health detection system of claim 1, wherein the intelligent wearing-based health detection system determines a first priority setting parameter according to the system login information of the user, specifically:

when the equipment bearing user of the first intelligent wearable equipment obtains the first intelligent wearable equipment, the equipment distribution server sets the user identification of the equipment bearing user; the user identification at least comprises a user ID and a user medical attention identification;

the user ID represents a user identity;

the user medical attention identification characterizes a degree of medical treatment that a user should be subjected to in the smart wear-based health detection system;

when a user logs in the system, a system administrator acquires a user ID and a user medical attention identifier, and determines corresponding first priority setting parameters based on the user medical attention identifier.

3. The health detection system based on intelligent wearing of claim 1, wherein the health detection system based on intelligent wearing determines a second priority setting parameter according to a user system login authority, specifically:

the equipment bearing user of the first intelligent wearable equipment acquires the user system login authority when the system is registered, and the user system login authority is preset by the system and is distributed to the user during registration;

the user system login authority at least comprises:

and (4) locking authority: when the lock authority is unlocked, the user is allowed to lock the health information to the local and not to share the health information, otherwise, the user is allowed to share the health information in the system users within a specific distance threshold;

hiding the authority: when the hidden permission is on, to allow a user to be imperceptible even if within a certain distance threshold from other users, and vice versa.

4. The intelligent wear-based health detection system of claim 2, wherein the user medical attention identifiers are classified into at least the following categories:

a medical node identifier to characterize a user as only a medical participating node of the intelligent wear-based health detection system to collect health information thereof and share to other users under specific circumstances;

the medical monitoring mark is used for representing that the health information of a user needs to be collected when the user is in a conventional medical monitoring mode, and the health information is locally stored under the condition of not actively sharing;

and the medical focus mark is used for representing that the user needs to collect the health information and feed back the medical information when the user is in the key medical monitoring mode.

5. The intelligent wear-based health detection system of claim 2, wherein:

the system administrator acquires a user ID and a user medical attention identifier, and determines corresponding first priority setting parameters based on the user medical attention identifier, wherein the first priority setting parameters at least comprise the following steps:

and when the medical attention mark of the user is a medical node mark, determining that a first priority setting parameter of the medical attention mark of the user is an information sharing level 1.

6. The intelligent wear-based health detection system of claim 2, wherein:

the system administrator acquires a user ID and a user medical attention identifier, and determines corresponding first priority setting parameters based on the user medical attention identifier, wherein the first priority setting parameters at least comprise the following steps:

and when the medical attention mark of the user is a medical monitoring mark, determining that a first priority setting parameter of the medical attention mark is an information sharing level 2.

7. The intelligent wear-based health detection system of claim 2, wherein:

the system administrator acquires a user ID and a user medical attention identifier, and determines corresponding first priority setting parameters based on the user medical attention identifier, wherein the first priority setting parameters at least comprise the following steps:

and when the medical attention mark of the user is a medical focus mark, determining that a first priority setting parameter of the medical attention mark is an information sharing level 3.

8. The intelligent wear-based health detection system of claim 4, wherein:

collecting health information identified by the medical node and sharing the health information to other users under specific conditions, wherein the health information comprises at least:

the user medical attention identification of the other user is a medical monitoring identification or a medical attention identification;

the medical node identifies that the user is within a particular distance threshold from the other users.

9. The intelligent wear-based health detection system of claim 8, wherein:

the period is set to 7 days or 30 days.

10. The intelligent wear-based health detection system of claim 8, wherein:

the specific distance threshold is set to 10m.

Images