CN112489749A - Multifunctional medical health care system based on Internet of things - Google Patents

Abstract

The invention discloses a multifunctional medical health-care system based on the Internet of things, which comprises a mobile terminal, a cloud server, a dynamic acquisition platform, a data research and judgment module, a data exchange platform, an information push module, a government interface, a medical platform and a database, wherein the data research and judgment module, the government interface and the data output end of the medical platform are all in communication connection with the information push module, one end of a data port of the mobile terminal is in communication connection with a self-service platform through the cloud server, and one end of the data port of the mobile terminal is in bidirectional data transmission with the dynamic acquisition platform. According to the invention, through the arrangement of the database and the data exchange platform, on one hand, the information intercommunication of all levels of medical platforms can be realized, and then the research and judgment speed and diagnosis and treatment speed of the all levels of medical platforms on the illness state of the patient can be effectively improved, on the other hand, the effective information intercommunication of the patient and the medical platforms can be effectively realized through the establishment and storage of various data, and then the patient can conveniently know the illness state of the individual in real time.

Description

Multifunctional medical health care system based on Internet of things

Technical Field

The invention belongs to the technical field of medical treatment, relates to a data utilization technology in the medical industry, and particularly relates to a multifunctional medical health care system based on the Internet of things.

Background

With the rapid development of economy in China, people have higher and higher attention to health care, and the traditional medical behavior diagnosis and treatment is gradually developed from the traditional medical behavior diagnosis and treatment to the preventive medicine of 'preventive treatment' which mainly prevents diseases in the future and eliminates diseases in the future, so that a health life concept mainly based on daily health care and assisted by diagnosis and treatment is formed.

In the traditional medical diagnosis process, doctors know the related medical history of patients through inquiry, the occurrence of the previous state of an illness and the medication condition of the patients cannot be clearly and comprehensively known, a series of auxiliary examinations such as blood drawing, CT and the like are often needed, the economic burden of the patients is undoubtedly increased, the problems of difficult inquiry, incomplete recording and the like easily occur in the inquiry process of the medical history recorded by paper cases, the existing medical system cannot achieve group prevention and group control due to personal management, the practicability is limited, and meanwhile, the patients are numerous and the load of the medical system is very serious due to the existing condition, so that a novel medical health care system is necessary to be provided.

Disclosure of Invention

The invention aims to provide a multifunctional medical health care system based on the Internet of things.

The technical problem to be solved by the invention is as follows:

(1) how to manage and prevent diseases for individuals and groups,

(2) how to realize the group prevention and full control,

(3) how to realize the information intercommunication between the patient and the medical platform,

(4) how to reduce the load of the medical system and realize the intelligent study and judgment of the state of illness.

The purpose of the invention can be realized by the following technical scheme:

a multifunctional medical health care system based on the Internet of things comprises a mobile terminal, a cloud server, a dynamic acquisition platform, a data studying and judging module, a data exchange platform, a self-service platform, an information pushing module, a government interface, a medical platform and a database;

the data studying and judging module, the government interface and the medical platform data output end are all in communication connection with the information pushing module;

one end of the mobile terminal data port is in communication connection with the self-service platform through the cloud server, one end of the mobile terminal data port is in bidirectional data transmission with the dynamic acquisition platform, the data output interface of the dynamic acquisition platform is in communication connection with the data study and judgment module, the data end of the self-service platform is in communication connection with the emergency management module and the authority management module respectively, and one end of the data output port of the information pushing module is in communication connection with the emergency management module;

the data output end of the emergency management module is in communication connection with the medical platform and the database, the authority management module and the data exchange platform are in bidirectional data transmission with the database, and the data end of the medical platform is in bidirectional data transmission with the data exchange platform;

the data output end of the medical platform is connected with a data management platform, the data end of the data management platform is in communication connection with a government interface, and the data end of the data management module is in communication connection with a database;

the self-service platform comprises a data query unit, a personal information creation unit, a doctor-patient communication platform, a health assessment and prevention unit and a medical reservation unit;

the database comprises case history data, medical doctor data, outpatient medical data, physical examination data and personal information data;

the medical platform comprises a community platform, a hospital platform and a remote mutual-aid platform, and the community platform, the hospital platform and the remote mutual-aid platform are in communication connection with a data exchange platform at a data output end and a data receiving end.

Furthermore, the dynamic acquisition platform is any one or more of wearable medical equipment, a mobile medical equipment acquisition terminal, a health all-in-one machine, a physiological parameter monitor, X-ray diagnostic equipment, ultrasonic diagnostic equipment, functional examination equipment, endoscopy equipment, nuclear medical equipment, experimental diagnostic equipment and pathological diagnosis equipment, the dynamic acquisition platform is used for acquiring various human body sign information data of a human body, the human body sign information which can be acquired by the dynamic acquisition platform comprises heart rate electrocardio data, blood pressure data, human body temperature data, blood oxygen data, respiration data, human body internal image data and electrocardiogram data, the dynamic acquisition platform receives wireless control of the mobile terminal to acquire various data in time, and transmits the acquired physiological data to the data studying and judging module on the premise of obtaining authorization.

Furthermore, each data threshold database, data identification and classification software and data format encryption conversion software are arranged in the data studying and judging module, and the data studying and judging module monitors whether the data uploaded by the dynamic acquisition platform exceeds a threshold value or is in a dangerous value through an algorithm and the data identification software;

after the data of the dynamic acquisition platform is acquired, the data is pre-classified by the data studying and judging module by adopting the following algorithm:

when the dynamic acquisition platform transmits heart rate electrocardio data, blood pressure data, human body temperature data, blood oxygen data, respiration data, human body internal image data and electrocardiogram data to the data studying and judging module, the dynamic acquisition platform module carries out digital labeling through data classification software, after the labeling, the heart rate electrocardio data are marked as M types, the blood pressure data are marked as N types, the human body internal image data are marked as O types, and the rest is done in the same way, and meanwhile, when the label is carried out, the specific acquisition time period is marked;

the marking rule is that the marks are sequentially marked at intervals of 15min within 24h, and the marks are sequentially marked as t₁、t₂、t₃、t₄、t₅、t₆… … and so on;

after labeling, t₁The M-class data collected under the time interval is marked as M-t₁The specific data value collected in the time interval is marked as M_{Specific value}]-t₁，t₁The N-type data collected under the time interval is marked as N-t₁The specific data value collected in the time interval is marked as N_{Specific value}]-t₁；

t₂The M-class data collected under the time interval is marked as M-t₂Specific number of acquisitions in the time periodAccording to the value marked as [ M_{Specific value}]-t₂，t₂The N-type data collected under the time interval is marked as N-t₂The specific data value collected in the time interval is marked as N_{Specific value}]-t₂… … and so on;

and t is arranged in the data studying and judging module₁The threshold value of the M-class electrocardiographic data in the time interval is M_min-M_max]-t₁And the N-type electrocardio-data threshold is [ N ]_min-N_max]-t₁… … and so on;

after the threshold value is determined and the label is finished, the data studying and judging module adopts the following algorithm to carry out numerical comparison;

SS001, normal signal output, current t₁Under time interval [ M_min]≤[M_{Specific value}]≤[M_max]When the mobile terminal is in use, the data studying and judging unit outputs a normal signal to the information pushing module, and the information pushing module feeds back the normal signal information to the mobile terminal;

SS002, dangerous information output, when t₁Under time interval [ M_{Specific value}]＜[M_min]Or [ M_{Specific value}]＞[M_max]When the data research and judgment unit determines the data to be an initial dangerous signal, the data research and judgment unit outputs a re-acquisition instruction to the dynamic acquisition platform after determining the data to be the initial dangerous signal, when the re-acquisition is carried out, the acquisition mode is continuous and uninterrupted acquisition, the continuous acquisition time length is recorded as T, the data acquired under the T time length is recorded as [ M [ ]_T]，[M_T]Changes in real time over the acquisition duration;

when [ M ] is_T]Is continuously [ M ] in the T period_T]＜[M_min]Or [ M_T]＞[M_max]In the state, the data studying and judging unit outputs a danger signal to the information pushing module, and simultaneously automatically performs format conversion and data encryption and packaging on the abnormal data, wherein when the abnormal data are packaged, the data package comprises the data of the type and other types;

SS003, misjudge the signal to exclude, the information studies and judges, the information pushes the module and feedbacks the synchronization to the mobile terminal after receiving the danger signal;

the mobile terminal is provided with a time response period RT after receiving the danger signal, the mobile terminal can feed back abnormal alarm information to the information pushing module under the confirmation of a patient in the RT period, the information pushing module stops the transmission of the abnormal data packet to the emergency management module after the mobile terminal feeds back the abnormal alarm information to the information pushing module, and the information pushing module transmits the data packet to the emergency management module when any signal is fed back by the mobile terminal in the RT period;

wherein the RT value is edited and confirmed by the mobile terminal, the T value, [ M ]_min]、[M_max]、[N_min]And [ N_max]Setting and editing the data by the data management platform;

the database provides data storage service for the data studying and judging unit.

Furthermore, the cloud server is a partial carrier of the self-service platform and provides data operation and network support services for the self-service platform, the mobile terminal accesses the self-service platform through the cloud server and performs related self-service services, the self-service platform is any one of a WEB end and a self-service machine, the mobile terminal can perform inquiry services of related medical data through the self-service platform, the mobile terminal can also perform personal information creation through the self-service platform, and the mobile terminal can also perform emergency medical services through the self-service platform and the emergency management module;

personal information that may be created includes, among other things, personal medical history, blood type, allergens, medication and treatment contraindications, personal contact, address, emergency contacts, medication history, treatment history, hospitalization history, and therapist information.

Furthermore, the doctor-patient communication platform is a WEB chat platform, the hospital guide personnel provide medical guide, hospital diagnosis guide and related consultation services for the patient through the communication platform, and the health assessment and prevention unit provides a corresponding health care or treatment scheme according to personal physiological information data in the database;

the health assessment and prevention unit matches the personal sign information data in the dynamic acquisition platform or the database with threshold data in the database after receiving the personal sign information data in the dynamic acquisition platform or the database, and the database stores corresponding health management, treatment or hospitalization recommendation schemes under certain types of certain thresholds;

for example, the recommended threshold value of the M-type data scheme includes the following multiple kinds [ M₁P₁-M₂P₂]、[M₂P₂-M₃P₃]、[M₃P₃-M_maxP_max]；

Wherein [ M₁]、[M₂]……[M_max]For specific parameter value, [ M₁]、[M₂]……[M_max]The continuous increasing arrangement is performed;

[P₁]、[P₂]……[P_max]recommendations for specific health management, treatment, medical advice and health care;

the N-type data scheme recommendation threshold values include the following multiple N₁Q₁-N₂Q₂]、[N₂Q₂-N₃Q₃]、[N₃Q₃-N_maxQ_max]……；

Wherein [ N ]₁]、[N₂]……[N_max]For specific parameter value, [ N₁]、[N₂]……[N_max]The continuous increasing arrangement is performed;

[Q₁]、[Q₂]……[Q_max]recommendations for specific health management, treatment, medical advice and health care;

… … and so on;

when the health assessment and prevention unit compares the threshold value of the data, the latest data accessed under the type in the database is selected, for example, under the M type, the latest data accessed by the database is [ M_new]；

SS001、[P₁]Scheme output, [ M ]₁]≤[M_new]＜[M₂]When the health assessment and prevention unit feeds back [ P ] to the patient₁]Recommending a scheme;

SS002、[P₂]scheme output, [ M ]₂]≤[M_new]＜[M₃]When the health assessment and prevention unit feeds back [ P ] to the patient₂]Recommending a scheme;

… … and so on;

wherein the health assessment and prevention unit is [ P ] at the time of the plan output₁]、[Q₁]… … integration schemes under all categories;

wherein [ P ]₁]、[P₂]……[P_max]，[M₁]、[M₂]……[M_max]And the data are edited and set by the data management platform.

Further, the emergency management module is used for receiving a complete data packet transmitted from the data studying and judging unit in real time, the emergency management module is transmitted to the database and the medical platform in real time after receiving an abnormal data packet, the medical platform extracts personal information of a patient from the database in real time when receiving an emergency request of the emergency management module, and rapidly performs matching of doctors, matching of medical sites and departments, matching of medicines and matching and establishment of treatment schemes, and the medical platform updates the personal information in the database in real time after establishing related information.

Furthermore, the authority management module carries out authorization verification on information extractable by the mobile terminal, and the data exchange platform is used for providing data exchange service for the medical platform.

Furthermore, the data management platform is used for encrypting, format converting, adding, modifying, deleting, data backing up and data updating various data in the database, the data management platform can also output reports according to the data in the database, and the medical platform and the government interface are used for managing the data management platform.

Furthermore, the government interface provides data query service for governments and related departments, the governments and the related departments establish multiple disease ranking data, multiple disease age distribution data, multiple disease trend analysis data, disease age statistical data and the like after querying the related data and output related reports, the governments and the related departments establish and perfect group medical care schemes after the reports are established, and the government interface timely pushes the group medical care schemes to suitable people through the information pushing module.

The invention has the beneficial effects that:

(1) according to the invention, through the arrangement of the database and the data exchange platform, on one hand, the information intercommunication of all levels of medical platforms can be realized, and then the research and judgment speed and diagnosis and treatment speed of the all levels of medical platforms on the illness state of the patient can be effectively improved, on the other hand, the effective information intercommunication of the patient and the medical platforms can be effectively realized through the establishment and storage of various data, and then the patient can conveniently know the illness state of the individual in real time.

(2) According to the invention, through the establishment of the data studying and judging module, the data acquired by the acquisition platform can be intelligently studied and judged, through the intelligent studying and judging, on one hand, pathological data can be effectively studied, analyzed and shunted, on the other hand, the load of a medical system can be reduced through shunting of the data, so that the working efficiency of the system is effectively improved, meanwhile, through the establishment of the data grinding module, a certain AI diagnosis effect can be realized, and through the discharge of misjudgment signals, invalid data can be effectively eliminated, so that the load of the medical platform is further reduced.

(3) The invention realizes the overall health care on the basis of realizing the medical care of patients by setting the government interface, the government platform can establish the ranking data of multiple diseases, the age distribution data of multiple diseases, the trend analysis data of multiple diseases, the statistical data of the age of the diseases and the like in time according to the analysis of the database data, and output the related report forms, thereby being beneficial to realizing the group health care and group prevention and treatment functions by establishing the data.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block diagram of the system of the present invention.

FIG. 2 is a system block diagram of a self-service platform.

FIG. 3 is a system block diagram of a database.

FIG. 4 is a system block diagram of a medical platform and a data exchange platform.

Detailed Description

As shown in fig. 1-4, a multifunctional medical care system based on the internet of things includes a mobile terminal, a cloud server, a dynamic collection platform, a data study and judgment module, a data exchange platform, a self-service platform, an information push module, a government interface, a medical platform and a database;

the data studying and judging module, the government interface and the medical platform data output end are all in communication connection with the information pushing module;

one end of a data port of the mobile terminal is in communication connection with the self-service platform through the cloud server, one end of the data port of the mobile terminal is in bidirectional data transmission with the dynamic acquisition platform, a data output interface of the dynamic acquisition platform is in communication connection with the data study and judgment module, the data end of the self-service platform is in communication connection with an emergency management module and an authority management module respectively, and one end of a data output port of the information pushing module is in communication connection with the emergency management module;

the data output end of the emergency management module is in communication connection with the medical platform and the database, the authority management module and the data exchange platform are in bidirectional data transmission with the database, and the data end of the medical platform is in bidirectional data transmission with the data exchange platform;

the data output end of the medical platform is connected with a data management platform, the data end of the data management platform is in communication connection with a government interface, and the data end of the data management module is in communication connection with a database;

the self-service platform comprises a data query unit, a personal information creation unit, a doctor-patient communication platform, a health assessment and prevention unit and a medical reservation unit;

the database comprises case history data, diagnostician data, outpatient medical data, physical examination data and personal information data;

the medical platform comprises a community platform, a hospital platform and a remote mutual-aid platform, and the community platform, the hospital platform and the remote mutual-aid platform are in communication connection with a data receiving end and a data exchange platform.

The dynamic acquisition platform is any one or more of wearable medical equipment, a mobile medical equipment acquisition terminal, a health all-in-one machine, a physiological parameter monitor, an X-ray diagnostic device, an ultrasonic diagnostic device, a function check device, an endoscopy device, a nuclear medical device, an experiment diagnostic device and a pathological diagnosis device, the dynamic acquisition platform is used for acquiring various human body sign information data of a human body, the human body sign information which can be acquired by the dynamic acquisition platform comprises heart rate electrocardio data, blood pressure data, human body temperature data, blood oxygen data, respiration data, internal image data of the human body and electrocardiogram data, the dynamic acquisition platform receives wireless control of the mobile terminal to acquire various data in time, and the dynamic acquisition platform transmits the acquired various physiological data to the data research and judgment module on the premise of obtaining authorization.

The data studying and judging module is internally provided with various data threshold value databases, data identification and classification software and data format encryption conversion software, and monitors whether the data uploaded by the dynamic acquisition platform exceeds a threshold value or is within a dangerous value through an algorithm and the data identification software;

after the data of the dynamic acquisition platform is acquired, the data is pre-classified by the data studying and judging module by adopting the following algorithm:

when the dynamic acquisition platform transmits heart rate electrocardio data, blood pressure data, human body temperature data, blood oxygen data, respiration data, human body internal image data and electrocardiogram data to the data studying and judging module, the dynamic acquisition platform module carries out digital labeling through data classification software, after the labeling, the heart rate electrocardio data are marked as M types, the blood pressure data are marked as N types, the human body internal image data are marked as O types, and the rest is done in the same way, and meanwhile, when the label is carried out, the specific acquisition time period is marked;

the marking rule is that the marks are sequentially marked at intervals of 15min within 24h, and the marks are sequentially marked as t₁、t₂、t₃、t₄、t₅、t₆… … and so on;

after labeling, t₁The M-class data collected under the time interval is marked as M-t₁The specific data value collected in the time interval is marked as M_{Specific value}]-t₁，t₁Collected at intervals of timeClass N data, labeled N-t₁The specific data value collected in the time interval is marked as N_{Specific value}]-t₁；

t₂The M-class data collected under the time interval is marked as M-t₂The specific data value collected in the time interval is marked as M_{Specific value}]-t₂，t₂The N-type data collected under the time interval is marked as N-t₂The specific data value collected in the time interval is marked as N_{Specific value}]-t₂… … and so on;

and t is arranged in the data studying and judging module₁The threshold value of the M-class electrocardiographic data in the time interval is M_min-M_max]-t₁And the N-type electrocardio-data threshold is [ N ]_min-N_max]-t₁… … and so on;

after the threshold value is determined and the label is finished, the data studying and judging module adopts the following algorithm to carry out numerical comparison;

SS001, normal signal output, current t₁Under time interval [ M_min]≤[M_{Specific value}]≤[M_max]When the mobile terminal is in use, the data studying and judging unit outputs a normal signal to the information pushing module, and the information pushing module feeds back the normal signal information to the mobile terminal;

SS002, dangerous information output, when t₁Under time interval [ M_{Specific value}]＜[M_min]Or [ M_{Specific value}]＞[M_max]When the data research and judgment unit determines the data to be an initial dangerous signal, the data research and judgment unit outputs a re-acquisition instruction to the dynamic acquisition platform after determining the data to be the initial dangerous signal, when the re-acquisition is carried out, the acquisition mode is continuous and uninterrupted acquisition, the continuous acquisition time length is recorded as T, the data acquired under the T time length is recorded as [ M [ ]_T]，[M_T]Changes in real time over the acquisition duration;

when [ M ] is_T]Is continuously [ M ] in the T period_T]＜[M_min]Or [ M_T]＞[M_max]When the data packet is packed, the data packet not only comprises the category numberAccording to the other category data;

SS003, misjudge the signal to exclude, the information studies and judges, the information pushes the module and feedbacks the synchronization to the mobile terminal after receiving the danger signal;

the mobile terminal is provided with a time response period RT after receiving the danger signal, the mobile terminal can feed back abnormal alarm information to the information pushing module under the confirmation of a patient in the RT period, the information pushing module stops the transmission of the abnormal data packet to the emergency management module after the mobile terminal feeds back the abnormal alarm information to the information pushing module, and the information pushing module transmits the data packet to the emergency management module when any signal is fed back by the mobile terminal in the RT period;

wherein the RT value is edited and confirmed by the mobile terminal, the T value, [ M ]_min]、[M_max]、[N_min]And [ N_max]Setting and editing the data by the data management platform;

the database provides data storage service for the data studying and judging unit.

The cloud server is a part of carriers of the self-service platform and provides data operation and network support services for the self-service platform, the mobile terminal accesses the self-service platform through the cloud server and performs related self-service services, the self-service platform is any one of a WEB end and a self-service machine, the mobile terminal can perform inquiry services of related medical data through the self-service platform, the mobile terminal can also perform personal information creation through the self-service platform, and the mobile terminal can also perform emergency medical services through the self-service platform and the emergency management module;

personal information that may be created includes, among other things, personal medical history, blood type, allergens, medication and treatment contraindications, personal contact, address, emergency contacts, medication history, treatment history, hospitalization history, and therapist information.

The doctor-patient communication platform is a WEB chat platform, hospital guide personnel provide doctor-seeing guide, hospital guide and related consultation services for patients through the communication platform, and the health assessment and prevention unit provides corresponding health care or treatment schemes according to personal physiological information data in the database;

the health assessment and prevention unit matches the personal sign information data in the dynamic acquisition platform or the database with threshold data in the database after receiving the personal sign information data in the dynamic acquisition platform or the database, and the database stores corresponding health management, treatment or hospitalization recommendation schemes under certain types of certain thresholds;

for example, the recommended threshold value of the M-type data scheme includes the following multiple kinds [ M₁P₁-M₂P₂]、[M₂P₂-M₃P₃]、[M₃P₃-M_maxP_max]；

Wherein [ M₁]、[M₂]……[M_max]For specific parameter value, [ M₁]、[M₂]……[M_max]The continuous increasing arrangement is performed;

[P₁]、[P₂]……[P_max]for specific health management, treatment, medical recommendation and health care recommendation schemes,

the N-type data scheme recommendation threshold values include the following multiple N₁Q₁-N₂Q₂]、[N₂Q₂-N₃Q₃]、[N₃Q₃-N_maxQ_max]……；

Wherein [ N ]₁]、[N₂]……[N_max]For specific parameter value, [ N₁]、[N₂]……[N_max]The continuous increasing arrangement is performed;

[Q₁]、[Q₂]……[Q_max]recommendations for specific health management, treatment, medical advice and health care;

… … and so on;

when the health assessment and prevention unit compares the threshold value of the data, the latest data accessed under the type in the database is selected, for example, under the M type, the latest data accessed by the database is [ M_new]；

SS001、[P₁]Scheme output, [ M ]₁]≤[M_new]＜[M₂]When the health assessment and prevention unit feeds back [ P ] to the patient₁]Recommending a scheme;

SS002、[P₂]scheme output, [ M ]₂]≤[M_new]＜[M₃]When the health assessment and prevention unit feeds back [ P ] to the patient₂]Recommending a scheme;

… … and so on;

wherein the health assessment and prevention unit is [ P ] at the time of the plan output₁]、[Q₁]… … integration schemes under all categories;

wherein [ P ]₁]、[P₂]……[P_max]，[M₁]、[M₂]……[M_max]And the data are edited and set by the data management platform.

The emergency management module is used for receiving the complete data packet transmitted from the data studying and judging unit in real time, the emergency management module is transmitted to the database and the medical platform in real time after receiving the abnormal data packet, the medical platform extracts the personal information of the patient from the database in real time when receiving the emergency request of the emergency management module, and rapidly carries out doctor matching, medical site and department matching, medicine matching and treatment scheme matching and establishment, and the medical platform updates the personal information in the database in real time after the relevant information is established.

The authority management module carries out authorization verification on the information which can be extracted by the mobile terminal, and the data exchange platform is used for providing data exchange service for the medical platform.

The data management platform is used for encrypting, format converting, adding, modifying, deleting, data backing up and data updating various data in the database, the data management platform can also output reports according to the data in the database, and the medical platform and the government interface are used for managing the data management platform.

The government interface provides data query service for the government and related departments, the government and related departments establish multi-disease ranking data, multi-disease age distribution data, multi-disease trend analysis data, disease and accident age statistical data and the like after querying related data and output related reports, the government and related departments establish and perfect group medical care schemes after the reports are established, and the government interface pushes the group medical care schemes to suitable people at proper time through the information pushing module.

The system is established with a data exchange platform, a community platform, a hospital platform and a mutual aid platform transmit and convert data mutually under the platform, on one hand, the intercommunication of patient information can be effectively realized through the establishment of the data exchange platform, on the other hand, unified electronic medical record acquisition data is formed, the physiological information of a patient can be acquired in real time through the establishment of a dynamic acquisition platform, the acquisition data covers various medical data such as characters, numbers, images, sounds, medical images and the like, the medical data is perfected, the quick establishment of a medical scheme of the patient during diagnosis and treatment is facilitated, the load of a medical system can be effectively reduced through the establishment of a data research and judgment module on the basis of meeting the medical health care requirements of the patient, and on the other hand, a health care manager, a health care object, a health care system can be realized through the establishment of an authority management module and a self, Different users such as medical staff set the authority to enter the system and the inquiry content range is limited, so that the data privacy is ensured, and the convenience of the patient in using the platform can be effectively improved.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (9)

1. The utility model provides a multi-functional medical care system based on thing networking which characterized in that:

the system comprises a mobile terminal, a cloud server, a dynamic acquisition platform, a data studying and judging module, a data exchange platform, a self-service platform, an information pushing module, a government interface, a medical platform and a database;

the data studying and judging module, the government interface and the medical platform data output end are all in communication connection with the information pushing module;

one end of the mobile terminal data port is in communication connection with the self-service platform through the cloud server, one end of the mobile terminal data port is in bidirectional data transmission with the dynamic acquisition platform, the data output interface of the dynamic acquisition platform is in communication connection with the data study and judgment module, the data end of the self-service platform is in communication connection with the emergency management module and the authority management module respectively, and one end of the data output port of the information pushing module is in communication connection with the emergency management module;

the data output end of the emergency management module is in communication connection with the medical platform and the database, the authority management module and the data exchange platform are in bidirectional data transmission with the database, and the data end of the medical platform is in bidirectional data transmission with the data exchange platform;

the data output end of the medical platform is connected with a data management platform, the data end of the data management platform is in communication connection with a government interface, and the data end of the data management module is in communication connection with a database;

the self-service platform comprises a data query unit, a personal information creation unit, a doctor-patient communication platform, a health assessment and prevention unit and a medical reservation unit;

the database comprises case history data, medical doctor data, outpatient medical data, physical examination data and personal information data;

the medical platform comprises a community platform, a hospital platform and a remote mutual-aid platform, and the community platform, the hospital platform and the remote mutual-aid platform are in communication connection with a data exchange platform at a data output end and a data receiving end.

2. The multifunctional medical health-care system based on the internet of things as claimed in claim 1, wherein the dynamic collection platform is any one or more of wearable medical equipment, a mobile medical equipment collection terminal, a health all-in-one machine, a physiological parameter monitor, an X-ray diagnostic equipment, an ultrasonic diagnostic equipment, a functional inspection equipment, an endoscope inspection equipment, a nuclear medical equipment, an experimental diagnostic equipment and a pathological diagnostic equipment, the dynamic collection platform is used for collecting various human body sign information data of a human body, the human body sign information which can be collected by the dynamic collection platform comprises heart rate electrocardio data, blood pressure data, human body temperature data, blood oxygen data, respiration data, internal image data of the human body and electrocardiogram data, the dynamic collection platform is controlled by the mobile terminal in a wireless mode to collect various data in time, and the dynamic collection platform transmits the collected various physiological data to data research and judgment on the premise of obtaining authorization And (5) modules.

3. The multifunctional medical health-care system based on the internet of things as claimed in claim 1, wherein the data studying and judging module is internally provided with various data threshold value libraries, data identification and classification software and data format encryption conversion software, and the data studying and judging module monitors whether the data uploaded by the dynamic acquisition platform exceeds a threshold value or is within a danger value through an algorithm and data identification software;

after the data of the dynamic acquisition platform is acquired, the data is pre-classified by the data studying and judging module by adopting the following algorithm:

when the dynamic acquisition platform transmits heart rate electrocardio data, blood pressure data, human body temperature data, blood oxygen data, respiration data, human body internal image data and electrocardiogram data to the data studying and judging module, the dynamic acquisition platform module carries out digital labeling through data classification software, after the labeling, the heart rate electrocardio data are marked as M types, the blood pressure data are marked as N types, the human body internal image data are marked as O types, and the rest is done in the same way, and meanwhile, when the label is carried out, the specific acquisition time period is marked;

the marking rule is that the marks are sequentially marked at intervals of 15min within 24h, and the marks are sequentially marked as t₁、t₂、t₃、t₄、t₅、t₆… … and so on;

after labeling, t₁The M-class data collected under the time interval is marked as M-t₁The specific data value collected in the time interval is marked as M_{Specific value}]-t₁，t₁The N-type data collected under the time interval is marked as N-t₁Specific acquisition at that time periodThe data value is marked as [ N ]_{Specific value}]-t₁；

t₂The M-class data collected under the time interval is marked as M-t₂The specific data value collected in the time interval is marked as M_{Specific value}]-t₂，t₂The N-type data collected under the time interval is marked as N-t₂The specific data value collected in the time interval is marked as N_{Specific value}]-t₂… … and so on;

and t is arranged in the data studying and judging module₁The threshold value of the M-class electrocardiographic data in the time interval is M_min-M_max]-t₁And the N-type electrocardio-data threshold is [ N ]_min-N_max]-t₁… … and so on;

after the threshold value is determined and the label is finished, the data studying and judging module adopts the following algorithm to carry out numerical comparison;

SS001, normal signal output, current t₁Under time interval [ M_min]≤[M_{Specific value}]≤[M_max]When the mobile terminal is in use, the data studying and judging unit outputs a normal signal to the information pushing module, and the information pushing module feeds back the normal signal information to the mobile terminal;

SS002, dangerous information output, when t₁Under time interval [ M_{Specific value}]＜[M_min]Or [ M_{Specific value}]＞[M_max]When the data research and judgment unit determines the data to be an initial dangerous signal, the data research and judgment unit outputs a re-acquisition instruction to the dynamic acquisition platform after determining the data to be the initial dangerous signal, when the re-acquisition is carried out, the acquisition mode is continuous and uninterrupted acquisition, the continuous acquisition time length is recorded as T, the data acquired under the T time length is recorded as [ M [ ]_T]，[M_T]Changes in real time over the acquisition duration;

when [ M ] is_T]Is continuously [ M ] in the T period_T]＜[M_min]Or [ M_T]＞[M_max]In the state, the data studying and judging unit outputs a danger signal to the information pushing module, and simultaneously automatically performs format conversion and data encryption and packaging on the abnormal data, wherein when the abnormal data are packaged, the data package comprises the data of the type and other types;

SS003, misjudge the signal to exclude, the information studies and judges, the information pushes the module and feedbacks the synchronization to the mobile terminal after receiving the danger signal;

the mobile terminal is provided with a time response period RT after receiving the danger signal, the mobile terminal can feed back abnormal alarm information to the information pushing module under the confirmation of a patient in the RT period, the information pushing module stops the transmission of the abnormal data packet to the emergency management module after the mobile terminal feeds back the abnormal alarm information to the information pushing module, and the information pushing module transmits the data packet to the emergency management module when any signal is fed back by the mobile terminal in the RT period;

wherein the RT value is edited and confirmed by the mobile terminal, the T value, [ M ]_min]、[M_max]、[N_min]And [ N_max]Setting and editing the data by the data management platform;

the database provides data storage service for the data studying and judging unit.

4. The multifunctional medical health-care system based on the internet of things of claim 1, wherein the cloud server is a part of a carrier of a self-service platform and provides data transportation and network support services for the self-service platform, the mobile terminal accesses the self-service platform through the cloud server and performs related self-service, the self-service platform is any one of a WEB terminal and a self-service machine, the mobile terminal can perform query service of related medical data through the self-service platform, the mobile terminal can also perform personal information creation through the self-service platform, and the mobile terminal can also perform emergency medical service through the self-service platform and an emergency management module;

personal information that may be created includes, among other things, personal medical history, blood type, allergens, medication and treatment contraindications, personal contact, address, emergency contacts, medication history, treatment history, hospitalization history, and therapist information.

5. The multifunctional medical care system based on the internet of things of claim 1, wherein the doctor-patient communication platform is a WEB chat platform, the hospital guidance personnel provide medical guidance, hospital diagnosis guidance and related consultation services for patients through the communication platform, and the health assessment and prevention unit gives out corresponding health care or treatment schemes according to personal physiological information data in the database;

the health assessment and prevention unit matches the personal sign information data in the dynamic acquisition platform or the database with threshold data in the database after receiving the personal sign information data in the dynamic acquisition platform or the database, and the database stores corresponding health management, treatment or hospitalization recommendation schemes under certain types of certain thresholds;

for example, the recommended threshold value of the M-type data scheme includes the following multiple kinds [ M₁P₁-M₂P₂]、[M₂P₂-M₃P₃]、[M₃P₃-M_maxP_max]；

Wherein [ M₁]、[M₂]……[M_max]For specific parameter value, [ M₁]、[M₂]……[M_max]The continuous increasing arrangement is performed;

[P₁]、[P₂]……[P_max]recommendations for specific health management, treatment, medical advice and health care;

the N-type data scheme recommendation threshold values include the following multiple N₁Q₁-N₂Q₂]、[N₂Q₂-N₃Q₃]、[N₃Q₃-N_maxQ_max]……；

Wherein [ N ]₁]、[N₂]……[N_max]For specific parameter value, [ N₁]、[N₂]……[N_max]The continuous increasing arrangement is performed;

[Q₁]、[Q₂]……[Q_max]recommendations for specific health management, treatment, medical advice and health care;

… … and so on;

the health assessment and prevention unit performs threshold on the dataWhen comparing, selecting the latest data accessed under the type in the database, for example, under the M type, the latest data accessed by the database is [ M_new]；

SS001、[P₁]Scheme output, [ M ]₁]≤[M_new]＜[M₂]When the health assessment and prevention unit feeds back [ P ] to the patient₁]Recommending a scheme;

SS002、[P₂]scheme output, [ M ]₂]≤[M_new]＜[M₃]When the health assessment and prevention unit feeds back [ P ] to the patient₂]Recommending a scheme;

… … and so on;

wherein the health assessment and prevention unit is [ P ] at the time of the plan output₁]、[Q₁]… … integration schemes under all categories;

wherein [ P ]₁]、[P₂]……[P_max]，[M₁]、[M₂]……[M_max]And the data are edited and set by the data management platform.

6. The multifunctional medical health-care system based on the internet of things of claim 1, wherein the emergency management module is used for receiving a complete data packet transmitted from the data studying and judging unit in real time, the emergency management module transmits an abnormal data packet to the database and the medical platform in real time after receiving the abnormal data packet, the medical platform extracts personal information of a patient from the database in real time when receiving an emergency request of the emergency management module, and rapidly performs matching of doctors, matching of medical sites and departments, matching of medicines and matching and establishment of treatment schemes, and the medical platform updates the personal information in the database in real time after the relevant information is established.

7. The multifunctional medical health care system based on the internet of things as claimed in claim 1, wherein the authority management module performs authorization verification on information extractable by the mobile terminal, and the data exchange platform is used for providing data exchange service for the medical platform.

8. The multifunctional medical care system based on internet of things of claim 1, wherein the data management platform is used for encrypting, format converting, adding, modifying, deleting, data backing up and data updating various data in the database, the data management platform can also output reports according to the data in the database, and the medical platform and the government interface are used for management of the data management platform.

9. The multifunctional medical health-care system based on the internet of things of claim 1, wherein the government interface provides data query services for governments and related departments, after the government and related departments query related data, the government and related departments establish ranking data of multiple diseases, age distribution data of multiple diseases, trend analysis data of multiple diseases, age statistics data of diseases and the like and output related reports, the government and related departments establish and perfect group medical health-care schemes after the reports are established, and the government interface timely pushes the group medical health-care schemes to suitable people through the information pushing module.

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