1. The utility model provides a healthy room management system in future based on internet which characterized in that: the management system comprises an intelligent health post, a management end, a user end and a signed doctor terminal;

the intelligent health stager is used for detecting and analyzing the body state of a user, the user side is used for the user to directly perform pre-detection on the body state on the handheld mobile terminal and plan the optimal path to a community health hospital, the management end is used for managing the intelligent health stager, and the signed doctor terminal is used by a signed doctor of the user;

the output of wisdom health post is connected the input of user end and management end, wisdom health post is connected with the doctor of signing a contract terminal.

2. The internet-based future health room management system of claim 1, wherein: the intelligent health post comprises an information acquisition terminal, a login module, a health management center, a storage database and a report printing module;

the information acquisition terminal is used for acquiring body information data of a user; the login module is used for a user to log in a future health room management system; the health management center is used for managing the user body information data acquired by the information acquisition terminal; the storage database is used for storing and recording body information data of the detected user; the report printing module is used for printing a detection report analyzed by the health management center;

the storage database and the signing doctor terminal are connected with the health management center, the output ends of the login module and the information acquisition terminal are connected with the input end of the health management center, and the output end of the health management center is connected with the input end of the report printing module.

3. The internet-based future health room management system of claim 2, wherein: the user side comprises a health pre-diagnosis module, a site display module, a path planning module, a suggestion reminding module and a report checking module;

the health pre-diagnosis module is used for pre-diagnosing and analyzing the physical state of the user; the site display module is used for displaying a medical service site diagram and marking a medical service institution on the medical service site diagram; the path planning module is used for planning the optimal path for the user to go to the medical service institution according to the selection of the user; the suggestion reminding module is used for giving corresponding suggestions according to the analysis result of the health management center on the body information data of the user; the report viewing module is used for a user to directly view an analysis report of the body state detection result on a user terminal;

the output end of the health pre-diagnosis module is connected with the input end of the health management center, the output end of the health management center is connected with the input ends of the site display module, the suggestion reminding module and the report checking module, and the output end of the site display module is connected with the input end of the path planning module.

4. The internet-based future health room management system of claim 3, wherein: the management end comprises a site management module, a user management module and a data management module;

the intelligent health post station comprises a site management module, a user management module and a data management module, wherein the site management module is used for managing site construction and distribution of the intelligent health post station, so that the intelligent health post station is more reasonable in construction and utilization rate of the intelligent health post station is improved;

the output end of the health management center is connected with the input ends of the site management module and the data management module, and the output end of the login module is connected with the input end of the user management module.

5. The internet-based future health room management system of claim 3, wherein: the health pre-diagnosis module comprises an intelligent diagnosis guide unit and a constitution identification unit;

the intelligent diagnosis guiding unit is used for clicking and selecting a corresponding part on the human body diagram on the user end by the user, and selecting symptoms, accompanying symptoms and medical history information to diagnose diseases; the constitution identification unit is used for evaluating and identifying the constitution in a question answering mode.

6. The internet-based future health room management system of claim 4, wherein: the station management module comprises a position analysis unit and a station distribution unit;

the position analysis unit is used for analyzing the construction position of the intelligent health post, and the site analysis unit is used for analyzing the distribution situation of sites and determining the rationality of site construction distribution;

the output end of the health management center is connected with the input end of the position analysis unit, and the output end of the position analysis unit is connected with the input end of the site distribution unit.

7. The internet-based future health room management system of claim 4, wherein: the site display module displays the position information of each medical service institution on a map after the user detects the physical state, and is used for selecting at least one medical service institution;

the path planning module is also used for importing traffic signal lamp data;

the user side is also used for positioning and collecting the position information of the user;

the path planning module plans a path for the user to go to the medical service institution by the following steps:

s1, analyzing the traveling speed of the user according to the position change information of the user;

s2, analyzing the time point when the user arrives at the intersection according to the traveling speed of the user;

s3, judging the traffic light state when the user arrives at the intersection according to the traffic light data and the time point when the user arrives at the intersection;

and S4, planning the optimal path for the user to go to the medical service institution according to the route distance and the time cost.

8. The internet-based future health room management system of claim 7, wherein: when the user walks to the medical service facility, in S1, the average speed V of the user' S travel is calculated before the user travels S meters away from the intersection, when the user travels S meters away from the intersection, the calculation of the average speed of the user is stopped, the average speed of the user is calculated every S meters, and a set of average speeds is formedWherein the content of the first and second substances,

the amount of change in average speed is calculated according to the following formula:

wherein the content of the first and second substances,representing the average velocity over the i +1 s meters,represents the average velocity over the ith s meters;

the average value of the variation amount of the average speed is calculated according to the following formula:

at S2, the time point when the user travels S meters away from the intersection is T, and the time taken for the user to reach the intersection is calculated according to the following formula:

the time point when the user arrives at the intersection is T + T_S；

In S3, the red light duration of the intersection traffic light is R seconds, the green light duration of the intersection traffic light is G seconds, and the yellow light duration of the intersection traffic light is Y seconds;

the time interval of one round of conversion of the traffic signal lamp is R + G + 2Y;

the interval duration of the green light is R +2Y seconds;

analyzing the state of a traffic light when a user arrives at the intersection according to the following formula:

p represents that the traffic signal lamp is at T + T_SThe number of switching rounds in a time period;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is green, and P is an integer, the traffic signal lamp is in a green state when the user arrives at the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is a red light, and P is an integer, the traffic signal lamp indicates that the traffic signal lamp is in a red light state when the user arrives at the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is green, and P has a remainder Q;

analyzing the state of a traffic signal lamp when the user arrives at the intersection according to the size of the remainder Q and the remaining time of the user when the user travels to a green lamp at a position S meters away from the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is a red lamp, and P has a remainder Q;

analyzing the state of a traffic signal lamp when the user arrives at the intersection according to the size of the remainder Q and the remaining time of the red light when the user travels to the position S meters away from the intersection;

in S4, the total time period T taken for each travel path is calculated using the change in the travel speed of the user and the time taken for the user to wait for the traffic signal light_{General assembly}Spend a total time period T_{General assembly}The minimum route is the optimal path;

as the travel speed of the user changes, the optimal path for the user to travel to the healthcare facility also changes.

9. The internet-based future health room management system of claim 6, wherein: the position analysis unit analyzes the construction position of the intelligent health post by the following steps:

s101, acquiring home address position information of a user by using a login module;

s102, dividing a certain area into two parts;

s103, setting a user number threshold value of each area after bisection division;

and S104, establishing an intelligent health post at the central position of the area reaching the set user number threshold.

10. The internet-based future health room management system of claim 9, wherein: in S101, after the home address position information of the user is obtained, marking the position information of the user on a map;

in S102, a certain region K is divided averagely, the region is divided into two regions K-1 and K-2, and the number of users in the region K-1 and the region K-2 is counted;

in S103, a threshold j is set for the number of users in each area;

in S104, when the number of users in a certain area is less than or equal to a set user number threshold, establishing a smart health stager at the central position of the area;

analyzing the position of the constructed intelligent health post by using a site distribution unit, and reflecting the distribution condition of the intelligent health post by calculating the distance between two adjacent intelligent health posts;

when the distance between two adjacent intelligent health posters is smaller than or equal to a set threshold value, the number of people using the intelligent health posters in the area is more, and the physical state of the user in the area needs to be focused.

Background

With the acceleration of modern life rhythm, the increasing of population aging problems and the higher pursuit of people for good life and life quality, how to meet the requirements of household chronic disease management, self health assessment and the like and improve the corresponding prevention and control level becomes one of the important subjects of the social livelihood development; particularly, chronic non-infectious diseases such as cardiovascular and cerebrovascular diseases, diabetes and the like become main death causes and disease burdens of residents;

although the recent years have seen significant results in the prevention and control of chronic diseases, health education, and health promotion, there is still a great room for improvement, and the following problems still remain:

1. at present, the resource matching coverage of household chronic disease management is still insufficient, most people cannot quickly and conveniently obtain corresponding prevention and treatment service resources, and hospital running is still a main mode;

2. at present, basic medical institutions are not only lack of general practitioners and preventive health care doctors who can undertake chronic disease management, but also lack of sufficient service facilities and medical equipment, and cannot take the tasks of main executives of chronic disease management;

3. the related policy support, financial investment and propaganda and education are also obviously insufficient, and the chronic disease patient cannot fully trust the primary medical worker and the primary medical institution to play due roles;

therefore, a future health room management system based on the internet is urgently needed to solve the above problems.

Disclosure of Invention

The invention aims to provide a future healthy room management system based on the Internet, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a future health house management system based on the Internet comprises an intelligent health post, a management end, a user end and a contracting doctor end;

the intelligent health stager is used for detecting and analyzing the body state of a user, the user side is used for the user to directly carry out pre-detection on the body state on the handheld mobile terminal and plan the optimal path to a community health hospital, the management end is used for managing the intelligent health stager, and the contracting doctor terminal is used by a contracting doctor of the user and is convenient for the contracting doctor to know the body state information of the user in time;

the output of wisdom health post is connected the input of user end and management end, wisdom health post is connected with the doctor of signing a contract terminal.

According to the technical scheme, the intelligent health post comprises an information acquisition terminal, a login module, a health management center, a storage database and a report printing module;

the information acquisition terminal is used for acquiring body information data of a user; the login module is used for a user to log in a future health room management system; the health management center is used for managing the user body information data acquired by the information acquisition terminal; the storage database is used for storing and recording body information data of the detected user; the report printing module is used for printing a detection report analyzed by the health management center;

the storage database and the signing doctor terminal are connected with the health management center, the output ends of the login module and the information acquisition terminal are connected with the input end of the health management center, and the output end of the health management center is connected with the input end of the report printing module.

According to the technical scheme, the user side comprises a health pre-diagnosis module, a site display module, a path planning module, a suggestion reminding module and a report viewing module;

the health pre-diagnosis module is used for pre-diagnosing and analyzing the physical state of the user; the site display module is used for displaying a medical service site diagram and marking a medical service institution on the medical service site diagram; the path planning module is used for planning the optimal path for the user to go to the medical service institution according to the selection of the user; the suggestion reminding module is used for giving corresponding suggestions according to the analysis result of the health management center on the body information data of the user; the report viewing module is used for a user to directly view an analysis report of the body state detection result on a user terminal;

the output end of the health pre-diagnosis module is connected with the input end of the health management center, the output end of the health management center is connected with the input ends of the site display module, the suggestion reminding module and the report checking module, and the output end of the site display module is connected with the input end of the path planning module.

According to the technical scheme, the management terminal comprises a site management module, a user management module and a data management module;

the intelligent health post station comprises a site management module, a user management module and a data management module, wherein the site management module is used for managing site construction and distribution of the intelligent health post station, so that the intelligent health post station is more reasonable in construction and utilization rate of the intelligent health post station is improved;

the output end of the health management center is connected with the input ends of the site management module and the data management module, and the output end of the login module is connected with the input end of the user management module.

According to the technical scheme, the health pre-diagnosis module comprises an intelligent diagnosis guiding unit and a constitution identification unit;

the intelligent diagnosis guiding unit is used for clicking and selecting a corresponding part on the human body diagram on the user end by the user, and selecting symptoms, accompanying symptoms and medical history information to diagnose diseases; the constitution identification unit is used for evaluating and identifying the constitution in a question answering mode, and after identification is finished, corresponding constitution introduction, diet health and exercise suggestion are promoted.

According to the technical scheme, the station management module comprises a position analysis unit and a station distribution unit;

the position analysis unit is used for analyzing the construction position of the intelligent health post, and the site analysis unit is used for analyzing the distribution situation of sites and determining the rationality of site construction distribution;

the output end of the health management center is connected with the input end of the position analysis unit, and the output end of the position analysis unit is connected with the input end of the site distribution unit.

The utilization rate of the intelligent health post house can be improved, and the use experience of the user is guaranteed.

According to the technical scheme, the site display module displays the position information of each medical service institution on the map after the user detects the physical state, and is used for selecting at least one medical service institution;

the path planning module is also used for importing traffic signal lamp data;

the user side is also used for positioning and collecting the position information of the user;

the path planning module plans a path for the user to go to the medical service institution by the following steps:

s1, analyzing the traveling speed of the user according to the position change information of the user;

s2, analyzing the time point when the user arrives at the intersection according to the traveling speed of the user;

s3, judging the traffic light state when the user arrives at the intersection according to the traffic light data and the time point when the user arrives at the intersection;

and S4, planning the optimal path for the user to go to the medical service institution according to the route distance and the time cost.

According to the above technical solution, when the user walks to the medical service institution, in S1, the average speed of the user' S travel is calculated before the user travels to a distance S meters from the intersectionWhen the user moves to the position S meters away from the intersection, the calculation of the average speed of the user is stopped, the average speed of the user is calculated every S meters to form an average speed setWherein the content of the first and second substances,

considering that the traveling speed is gradually reduced along with the incalculable increase of the traveling distance, in order to accurately calculate the time point when the user arrives at the intersection, the variation of the average speed is calculated according to the following formula:

wherein the content of the first and second substances,representing the average velocity over the i +1 s meters,represents the average velocity over the ith s meters;

the average value of the variation amount of the average speed is calculated according to the following formula:

at S2, the time point when the user travels S meters away from the intersection is T, and the time taken for the user to reach the intersection is calculated according to the following formula:

the time point when the user arrives at the intersection is T + T_S；

In S3, the red light duration of the intersection traffic light is R seconds, the green light duration of the intersection traffic light is G seconds, and the yellow light duration of the intersection traffic light is Y seconds;

the time interval of one round of conversion of the traffic signal lamp is R + G + 2Y;

the interval duration of the green light is R +2Y seconds;

analyzing the state of a traffic light when a user arrives at the intersection according to the following formula:

p represents that the traffic signal lamp is at T + T_SThe number of switching rounds in a time period;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is green, and P is an integer, the traffic signal lamp is in a green state when the user arrives at the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is a red light, and P is an integer, the traffic signal lamp indicates that the traffic signal lamp is in a red light state when the user arrives at the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is green, and P has a remainder Q;

analyzing the state of a traffic signal lamp when the user arrives at the intersection according to the size of the remainder Q and the remaining time of the user when the user travels to a green lamp at a position S meters away from the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is a red lamp, and P has a remainder Q;

analyzing the state of a traffic signal lamp when the user arrives at the intersection according to the size of the remainder Q and the remaining time of the red light when the user travels to the position S meters away from the intersection;

in S4, the total time period T taken for each travel path is calculated using the change in the travel speed of the user and the time taken for the user to wait for the traffic signal light_{General assembly}Spend a total time period T_{General assembly}The minimum route is the optimal path;

as the travel speed of the user changes, the optimal path for the user to travel to the healthcare facility also changes.

Through the technical scheme, the traffic signal lamp state of the user when arriving at the intersection can be accurately judged according to the change of the traveling speed of the user, so that the time spent by the user for waiting for the red light can be reduced, the time spent by the user for going to a medical service mechanism is shortened, precious time is gained for the user for going to a hospital for diagnosis, in addition, in the process that the user goes to the medical service mechanism, the optimal traveling route is continuously changed, and the time spent by the user for going to the medical service mechanism is ensured to the maximum extent.

According to the technical scheme, the position analysis unit analyzes the construction position of the intelligent health post by the following steps:

s101, acquiring home address position information of a user by using a login module;

s102, dividing a certain area into two parts;

s103, setting a user number threshold value of each area after bisection division;

and S104, establishing an intelligent health post at the central position of the area reaching the set user number threshold.

According to the technical scheme, in S101, after the home address position information of the user is obtained, the position information of the user is marked on a map;

in S102, a certain region K is divided averagely, the region is divided into two regions K-1 and K-2, and the number of users in the region K-1 and the region K-2 is counted;

in S103, a threshold j is set for the number of users in each area;

in S104, when the number of users in a certain area is less than or equal to the set user number threshold, establishing a smart health stager at the central position of the area, so that the users can fully utilize the smart health stager, and the situation that the smart health stager cannot be normally used due to more users is avoided;

analyzing the position of the constructed intelligent health post by using a site distribution unit, and reflecting the distribution condition of the intelligent health post by calculating the distance between two adjacent intelligent health posts;

when the distance between two adjacent intelligent health posters is smaller than or equal to a set threshold value, the number of people using the intelligent health posters in the area is more, and the physical state of the user in the area needs to be focused.

Through above-mentioned technical scheme, can guarantee the rational construction and the distribution of wisdom health post house, improve the utilization ratio of wisdom health post house, improve user's use and experience.

Compared with the prior art, the invention has the beneficial effects that:

1. the intelligent health post provided by the invention can detect more than thirty body information data of the user, and supports code scanning of the user terminal, so that the user can independently know the body condition of the user, the time spent on going to a hospital is saved, and the body diagnosis efficiency is improved.

2. According to the invention, through the arrangement of the station display module and the path planning module, the state of the traffic light when the user arrives at the intersection can be accurately calculated and analyzed, so that the time for waiting for the traffic light can be saved for the user, the optimal route for the user to go to the medical service mechanism is planned for the user, and the route is continuously updated along with the progress of the user, so that the time spent by the user to go to the medical service mechanism can be shortened, the efficiency of medical diagnosis is improved, and precious time is won for the medical diagnosis of the user.

3. According to the intelligent health post station, the building position of the intelligent health post station can be reasonably planned through the station management module, the utilization rate of the intelligent health post station is improved, the phenomenon of crowding when the intelligent health post station is used is avoided, the experience of a user is improved, and the investment of capital is reduced.

Drawings

FIG. 1 is a schematic diagram of an association structure of a future health room management system based on the Internet according to the present invention;

FIG. 2 is a schematic diagram of a future health room management system based on the Internet according to the present invention;

FIG. 3 is a schematic diagram illustrating the connection relationship between modules of a future health room management system based on the Internet according to the present invention;

fig. 4 is a schematic diagram of a future healthy room management system area division structure based on the internet according to the present invention.

Detailed Description

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

As shown in fig. 1 to 4, the present invention provides a future health room management system based on the internet, which includes an intelligent health post, a management end, a user end and a contracting doctor end;

the intelligent health stager is used for detecting and analyzing the body state of a user, the user side is used for the user to directly carry out pre-detection on the body state on the handheld mobile terminal and plan the optimal path to a community health hospital, the management end is used for managing the intelligent health stager, and the contracting doctor terminal is used by a contracting doctor of the user and is convenient for the contracting doctor to know the body state information of the user in time;

the output of wisdom health post is connected the input of user end and management end, wisdom health post is connected with the doctor of signing a contract terminal.

The intelligent health post comprises an information acquisition terminal, a login module, a health management center, a storage database and a report printing module;

the information acquisition terminal is used for acquiring body information data of a user, and the body information data acquired by the information acquisition terminal comprises four items of height, weight, BMI, body temperature, body composition, blood oxygen, blood pressure, electrocardio, blood sugar, uric acid, cholesterol, blood fat, bone density, lung function, arteriosclerosis, vision screening and the like; the login module is used for logging in a future health house management system by a user, and the login mode of the login module is at least one of identity card login, social security card login and health code login; the health management center is used for managing the user body information data acquired by the information acquisition terminal; the storage database is used for storing and recording body information data of the detected user; the report printing module is used for printing a detection report analyzed by the health management center, and the detection report comprises a physical examination report and a thermosensitive report;

the storage database and the signing doctor terminal are connected with the health management center, the output ends of the login module and the information acquisition terminal are connected with the input end of the health management center, and the output end of the health management center is connected with the input end of the report printing module.

The user side comprises a health pre-diagnosis module, a site display module, a path planning module, a suggestion reminding module and a report checking module;

the health pre-diagnosis module is used for pre-diagnosing and analyzing the physical state of the user; the site display module is used for displaying a medical service site diagram and marking a medical service institution on the medical service site diagram; the path planning module is used for planning the optimal path for the user to go to the medical service institution according to the selection of the user; the suggestion reminding module is used for giving corresponding suggestions according to the analysis result of the health management center on the body information data of the user; the report viewing module is used for a user to directly view an analysis report of the body state detection result on a user terminal;

the output end of the health pre-diagnosis module is connected with the input end of the health management center, the output end of the health management center is connected with the input ends of the site display module, the suggestion reminding module and the report checking module, and the output end of the site display module is connected with the input end of the path planning module.

The management end comprises a site management module, a user management module and a data management module;

the intelligent health post station comprises a site management module, a user management module and a data management module, wherein the site management module is used for managing site construction and distribution of the intelligent health post station, so that the intelligent health post station is more reasonable in construction and utilization rate of the intelligent health post station is improved;

the output end of the health management center is connected with the input ends of the site management module and the data management module, and the output end of the login module is connected with the input end of the user management module.

The health pre-diagnosis module comprises an intelligent diagnosis guide unit and a constitution identification unit;

the intelligent diagnosis guiding unit is used for clicking and selecting a corresponding part on the human body diagram on the user end by a user, selecting symptoms, accompanying symptoms and medical history information to diagnose diseases, and inputting multi-dimensional technical parameters including sex, front and back sides of the human body and age; the constitution identification unit is used for evaluating and identifying the constitution in a question answering mode, and after identification is finished, corresponding constitution introduction, diet health and exercise suggestion are promoted.

The station management module comprises a position analysis unit and a station distribution unit;

the position analysis unit is used for analyzing the construction position of the intelligent health post, and the site analysis unit is used for analyzing the distribution situation of sites and determining the rationality of site construction distribution;

the output end of the health management center is connected with the input end of the position analysis unit, and the output end of the position analysis unit is connected with the input end of the site distribution unit.

The utilization rate of the intelligent health post house can be improved, and the use experience of the user is guaranteed.

The site display module displays the position information of each medical service institution on a map after the user detects the physical state, and is used for selecting at least one medical service institution;

the path planning module is also used for importing traffic signal lamp data;

the user side is also used for positioning and collecting the position information of the user;

the path planning module plans a path for the user to go to the medical service institution by the following steps:

s1, analyzing the traveling speed of the user according to the position change information of the user;

s2, analyzing the time point when the user arrives at the intersection according to the traveling speed of the user;

s3, judging the traffic light state when the user arrives at the intersection according to the traffic light data and the time point when the user arrives at the intersection;

and S4, planning the optimal path for the user to go to the medical service institution according to the route distance and the time cost.

When the user walks to the healthcare facility, in S1, the average speed at which the user travels is calculated before the user travels S meters from the intersectionWhen the user moves to the position S meters away from the intersection, the calculation of the average speed of the user is stopped, the average speed of the user is calculated every S meters to form an average speed setWherein the content of the first and second substances,

considering that the traveling speed is gradually reduced along with the incalculable increase of the traveling distance, in order to accurately calculate the time point when the user arrives at the intersection, the variation of the average speed is calculated according to the following formula:

wherein the content of the first and second substances,representing the average velocity over the i +1 s meters,represents the average velocity over the ith s meters;

the average value of the variation amount of the average speed is calculated according to the following formula:

at S2, the time point when the user travels S meters away from the intersection is T, and the time taken for the user to reach the intersection is calculated according to the following formula:

the time point when the user arrives at the intersection is T + T_S；

In S3, the red light duration of the intersection traffic light is R seconds, the green light duration of the intersection traffic light is G seconds, and the yellow light duration of the intersection traffic light is Y seconds;

the time interval of one round of conversion of the traffic signal lamp is R + G + 2Y;

the interval duration of the green light is R +2Y seconds;

analyzing the state of a traffic light when a user arrives at the intersection according to the following formula:

p represents that the traffic signal lamp is at T + T_SThe number of switching rounds in a time period;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is green, and P is an integer, the traffic signal lamp is in a green state when the user arrives at the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is a red light, and P is an integer, the traffic signal lamp indicates that the traffic signal lamp is in a red light state when the user arrives at the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is green, and P has a remainder Q;

analyzing the state of a traffic signal lamp when the user arrives at the intersection according to the size of the remainder Q and the remaining time of the user when the user travels to a green lamp at a position S meters away from the intersection;

when the user travels to a position S meters away from the intersection, the traffic signal lamp is a red lamp, and P has a remainder Q;

analyzing the state of a traffic signal lamp when the user arrives at the intersection according to the size of the remainder Q and the remaining time of the red light when the user travels to the position S meters away from the intersection;

in S4, the total time period T taken for each travel path is calculated using the change in the travel speed of the user and the time taken for the user to wait for the traffic signal light_{General assembly}Spend a total time period T_{General assembly}The minimum route is the optimal path;

as the travel speed of the user changes, the optimal path for the user to travel to the healthcare facility also changes.

Through the technical scheme, the traffic signal lamp state of the user when arriving at the intersection can be accurately judged according to the change of the traveling speed of the user, so that the time spent by the user for waiting for the red light can be reduced, the time spent by the user for going to a medical service mechanism is shortened, precious time is gained for the user for going to a hospital for diagnosis, in addition, in the process that the user goes to the medical service mechanism, the optimal traveling route is continuously changed, and the time spent by the user for going to the medical service mechanism is ensured to the maximum extent.

The position analysis unit analyzes the construction position of the intelligent health post by the following steps:

s101, acquiring home address position information of a user by using a login module;

s102, dividing a certain area into two parts;

s103, setting a user number threshold value of each area after bisection division;

and S104, establishing an intelligent health post at the central position of the area reaching the set user number threshold.

In S101, after the home address position information of the user is obtained, marking the position information of the user on a map;

in S102, a certain region K is divided averagely, the region is divided into two regions K-1 and K-2, and the number of users in the region K-1 and the region K-2 is counted;

in S103, a threshold j is set for the number of users in each area;

in S104, when the number of users in a certain area is less than or equal to the set user number threshold, establishing a smart health stager at the central position of the area, so that the users can fully utilize the smart health stager, and the situation that the smart health stager cannot be normally used due to more users is avoided;

analyzing the position of the constructed intelligent health post by using a site distribution unit, and reflecting the distribution condition of the intelligent health post by calculating the distance between two adjacent intelligent health posts;

when the distance between two adjacent intelligent health posters is smaller than or equal to a set threshold value, the number of people using the intelligent health posters in the area is more, and the physical state of the user in the area needs to be focused.

Through above-mentioned technical scheme, can guarantee the rational construction and the distribution of wisdom health post house, improve the utilization ratio of wisdom health post house, improve user's use and experience.

The first embodiment is as follows: when the user walks to the medical service institution, the average speed of the user' S travel is calculated before the user travels to the distance intersection S of 100 metersand/S, when the user travels to the distance intersection S of 100 meters, stopping calculating the average speed of the user, calculating the average speed of the user once every S of 10 meters, and forming a set of average speeds Wherein the content of the first and second substances,

considering that the traveling speed is gradually reduced along with the incalculable increase of the traveling distance, in order to accurately calculate the time point when the user arrives at the intersection, the variation of the average speed is calculated according to the following formula:

wherein the content of the first and second substances,representing the average velocity over the i +1 s meters,represents the average velocity over the ith s meters;

the average value of the variation amount of the average speed is calculated according to the following formula:

when the user travels to the distance intersection S of 100 meters, the time point T is 10: 32: calculating the time point of arrival of the user at the intersection according to the following formula:

the time point when the user arrives at the intersection is T + T_S＝10：33：48.5；

The red light duration of the intersection traffic signal light is 20 seconds, the green light duration of the intersection traffic signal light is 30 seconds, and the yellow light duration of the intersection traffic signal light is 3 seconds;

the time interval of one round of conversion of the traffic signal lamp is 56 seconds;

the interval duration of the green light is R + 2Y-26 seconds;

analyzing the state of a traffic light when a user arrives at the intersection according to the following formula:

p-37.5 denotes traffic signal at T + T_SThe number of switching rounds in a time period;

when the user travels to a position away from the intersection S & lt100 m & gt, the traffic signal lamp is green, and the remainder Q & lt37.5 & gt exists in P;

at this time, the remaining time of the green light is 20 seconds, and then, when the user arrives at the intersection, 5.5 seconds remain for the red light.

Calculating the total time length T taken by each travel path by using the travel speed change of the user and the time taken by the user to wait for the traffic signal_{General assembly}Spend a total time period T_{General assembly}The minimum route is the optimal path;

as the travel speed of the user changes, the optimal path for the user to travel to the healthcare facility also changes.

Example two: when the user walks to the medical service institution, the average speed of the user' S travel is calculated before the user travels to the distance intersection S of 100 meters When the user travels to the distance intersection S of 100 meters, the calculation of the average speed of the user is stopped, the average speed of the user is calculated every S of 10 meters, and a set of average speeds is formed Wherein the content of the first and second substances,

considering that the traveling speed is gradually reduced along with the incalculable increase of the traveling distance, in order to accurately calculate the time point when the user arrives at the intersection, the variation of the average speed is calculated according to the following formula:

wherein the content of the first and second substances,representing the average velocity over the i +1 s meters,represents the average velocity over the ith s meters;

the average value of the variation amount of the average speed is calculated according to the following formula:

when the user travels to the distance intersection S of 100 meters, the time point T is 10: 32: calculating the time point of arrival of the user at the intersection according to the following formula:

the time point when the user arrives at the intersection is T + T_S＝10：33：48.5；

The red light duration of the intersection traffic signal light is 20 seconds, the green light duration of the intersection traffic signal light is 30 seconds, and the yellow light duration of the intersection traffic signal light is 3 seconds;

the time interval of one round of conversion of the traffic signal lamp is 56 seconds;

the interval duration of the green light is R + 2Y-26 seconds;

analyzing the state of a traffic light when a user arrives at the intersection according to the following formula:

p-37.5 denotes traffic signal at T + T_SThe number of switching rounds in a time period;

when the user travels to a position away from the intersection S & lt100 m & gt, the traffic signal lamp is green, and the remainder Q & lt37.5 & gt exists in P;

at this time, the remaining time of the green light is 5 seconds, and then, when the user arrives at the intersection, 20.5 seconds remain for the green light.

Calculating the total time length T taken by each travel path by using the travel speed change of the user and the time taken by the user to wait for the traffic signal_{General assembly}Spend a total time period T_{General assembly}The minimum route is the optimal path;

as the travel speed of the user changes, the optimal path for the user to travel to the healthcare facility also changes.

Example three:

after the position information of the home address of the user is obtained, marking the position information of the user on a map;

averagely dividing a certain region K, dividing the region into two regions K-1 and K-2, and counting the number of users in the region K-1 and the region K-2;

setting a threshold value j to be 50 for the number of users in each area;

the number of users in the region K-1 and the region K-2 is more than 50;

dividing the region K-1 and the region K-2 again to obtain a region K-1-1, a region K-1-2, a region K-2-1 and a region K-2-2; wherein the number of users in the region K-1-1, the region K-1-2 and the region K-2-2 is less than 50; establishing intelligent health stagers at the central positions of the region K-1-1, the region K-1-2 and the region K-2-2;

and dividing the region K-2-1 again to obtain a region K-2-1-1 and a region K-2-1-2, wherein the number of people in the region K-2-1-1 and the region K-2-1-2 is less than 50, and establishing an intelligent health post at the central positions of the region K-2-1-1 and the region K-2-1-2.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.