CN112612515B - Medical health Internet of things product standardization and application scene display method and system - Google Patents

Abstract

The invention relates to the technical field of intelligent medical treatment, and aims to provide a method and a system for displaying standardization and application scenes of medical health Internet of things products, wherein the method comprises the steps of S1, logging in a supporting platform by a medical health Internet of things product owner, and registering information of the product and a management system thereof; s2: the owner selects a corresponding platform-defined function simulation plug-in on the supporting platform for the product and the management system thereof, calls a plug-in configuration module of the supporting platform to configure the basic function of the function simulation plug-in, completes the basic function configuration function, and executes S4, if the owner can not search the function simulation plug-in on the supporting platform; s3: an owner can download a plug-in development interface and technical specifications on a supporting platform to develop a functional simulation plug-in of a product by himself; s4: the owner performs functional simulation and operational testing on the product in a data sandbox on the support platform. The operation simulation and the visual display of the effect of the application function of the medical health Internet of things product can be realized.

Description

Medical health Internet of things product standardization and application scene display method and system

Technical Field

The invention relates to the technical field of intelligent medical treatment, in particular to a method and a system for displaying standardization and application scenes of medical health Internet of things products.

Background

The Internet of things is an important component of a new-generation information technology industry, has a wide development prospect, and has important significance for national economy and social development. In recent years, the health informatization construction of China is rapidly developed, and a good foundation is laid for the development and application of medical health networks. With the development of the requirements of aged population, the self health management of residents and the like, the technology of the internet of things is widely applied to the field of health, and plays an increasingly important role in deepening the innovation of medical and health systems and promoting the development of health industries.

At present, the application of the internet of things in the medical health industry in China is mainly embodied in the aspects of medical service, medical product management, medical instrument management, blood management, health management, telemedicine, remote education and the like, but most of the applications are in the stages of trial and starting. Due to the lack of application of unified information standards, the difficulty of information integration between different medical health internet of things products and between the medical health internet of things products and a service information system is high, and the integration application between heterogeneous products and the system is difficult to realize around one service scene; due to the lack of visual display scenes, users are difficult to judge whether products are good or not, and select products which are difficult to form a system and are matched with each other, so that the overall support of business activities is realized.

Due to the reasons, the medical health Internet of things industry and various excellent products cannot be copied and applied and popularized on a large scale. The invention provides a method and a system for standardized verification, simulated operation and effect display of medical health Internet of things products.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a method and a system for displaying the standardization and application scenes of medical health Internet of things products, wherein the owner of the medical health Internet of things products logs in a support platform to register the information of the products and a management system thereof; the owner selects a corresponding platform-defined function simulation plug-in for the product and the management system thereof on the supporting platform, and calls a plug-in configuration module of the supporting platform to configure the basic functions of the plug-in; if the product is an innovative product or the management system has innovative functions and no defined plug-in exists, a user can download a plug-in development interface and technical specifications to develop the plug-in by himself.

The method is realized by the following technical scheme: on one hand, the application method of the product based on the medical health Internet of things comprises the following steps:

s1, logging in a supporting platform by a medical health Internet of things product owner, performing information registration on the product and a management system thereof, and executing S2;

s2: the owner selects a corresponding platform-defined function simulation plug-in for the product and the management system thereof on the supporting platform, calls a plug-in configuration module of the supporting platform to configure the basic function of the function simulation plug-in, completes the basic function configuration function, and executes S4, if the owner can not search the function simulation plug-in on the supporting platform, executes S3;

s3: the owner can download the plug-in development interface and the technical specification on the supporting platform, develop the functional simulation plug-in of the product by himself, and continue to execute S2;

s4: the owner calls a product data configuration module of the supporting platform to configure sensing data of the medical health Internet of things product, functional simulation and operation test are carried out on the product in a data sandbox on the supporting platform, standardized verification is carried out on the medical health Internet of things product through standardized data of the data sandbox and a standardized verification module, and all information of the medical health Internet of things product is perfected to be shared through the supporting platform.

Preferably, in step S1, the supporting platform includes a plug-in creating module, a plug-in configuring module, a plug-in installing module, a functional testing module, a functional configuring module, and an operation hosting module.

Preferably, the functional simulation plug-ins can perform data interaction, and comprise defined functional simulation plug-ins and self-developed functional simulation plug-ins.

Preferably, in S4, the supporting platform includes a plurality of functional simulation plug-ins, including a functional simulation module of a regional health information service system, a functional simulation module of a hospital information service system, and a functional simulation module of a basic health information service system, and the supporting platform further includes a plurality of management modules, including an operation supervision module, a visual management module, an interactive data configuration module, a standardized verification module, and a product data configuration module.

Preferably, the data sandbox comprises a plurality of subject libraries, and the subject libraries comprise a medical health internet of things plug-in operation standardized data subject library, a regional health information service system operation standardized data subject library, a hospital information service system operation standardized data subject library and a basic health information service system operation standardized data subject library.

On the other hand, the application system based on the medical health Internet of things product comprises a function simulation plug-in, a support platform and a data sandbox, wherein the function simulation plug-in is a plug-in with a specific function, the plug-in is embedded into a corresponding program through a specific application program interface, the support platform can be provided with a plurality of function simulation plug-ins and product management plug-ins, the product management plug-ins are configured into the function simulation plug-ins by users, the function simulation plug-ins are used for displaying products of the users, and standardized data and function simulation are provided for the medical health Internet of things product through the data sandbox.

Preferably, the support platform comprises a plug-in creating module, a plug-in configuring module, a plug-in installing module, a function testing module, a function configuring module and an operation hosting module.

Preferably, the support platform is provided with a plurality of function simulation plug-ins, and comprises a regional health information service system function simulation module, a hospital information service system function simulation module and a basic health information service system function simulation module, and the support platform is further provided with a plurality of management modules, wherein each management module comprises an operation supervision module, a visual management module, an interactive data configuration module, a standardized verification module and a product data configuration module, the data sandbox comprises a plurality of subject banks, and each subject bank comprises a medical health internet of things plug-in operation standardized data subject bank, a regional health information service system operation standardized data subject bank, a hospital information service system operation standardized data subject bank and a basic health information service system operation standardized data subject bank.

The invention has the beneficial effects that:

(1) data interaction among medical health Internet of things products and between the products and a service system is realized;

(2) the opportunity of integrating medical resources is provided, and products are accessed to the platform, so that users can share the product resources and communicate information by means of the platform.

Drawings

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a diagram of a specific data sandbox in one embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to fig. 1 to 2 of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other implementations made by those of ordinary skill in the art based on the embodiments of the present invention are obtained without inventive efforts.

In the description of the present invention, it is to be understood that the terms "counterclockwise", "clockwise", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used for convenience of description only, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting.

Example 1:

functional plug-in: a plurality of plug-ins for simulating the functions of the product, namely function simulation plug-ins, can be arranged, and the function simulation is a method for reflecting the functional characteristics and the rules of a research object by using a simulation method. The plug-in is a program written by an application program interface conforming to a certain specification, and can only run under a system platform specified by the program, but can not run independently from a specified platform, because the plug-in needs to call a function library or data provided by the platform. The functional simulation plug-in is a plug-in developed based on a supporting platform and a data sandbox, operated on the supporting platform and used for simulating the realization of the functions of the medical health Internet of things product.

A support platform: the complete plug-in installation deployment and function configuration platform is provided for users as a service, and comprises services such as plug-in creation, plug-in configuration, plug-in installation, function test, function configuration and operation hosting. In the service mode, a user can create, test and deploy product plug-ins by using the support platform without purchasing hardware and software, and relevant functions of medical health Internet of things products are displayed.

A data sandbox: in the field of computer security, sandboxing is a security mechanism that provides an isolated environment for executing programs, typically an experimental environment intended for programs that are untrusted, destructive, or indeterminate as some source. The data sandbox can create a safe, proper and real data testing environment for a user, allow the user to run functional applications and data analysis programs based on data provided by the sandbox in the data sandbox environment, and set data resource permission and monitor the sandbox utilization rate in the testing process.

The method comprises the steps that defined function simulation plug-ins are provided for conventional products and management systems thereof, a user can select and configure the defined plug-ins on a platform according to needs, a uniform plug-in interface and technical requirements are provided, and the user is allowed to define and develop the plug-ins;

the method comprises the following steps of dividing the actual functions of the medical health Internet of things products into two types of plug-ins to realize simulation on a platform, wherein the plug-ins simulate the basic functions of the product Internet of things perception, and the plug-ins simulate the comprehensive management and data analysis effects of the products; the operation configuration of the functional simulation plug-in is divided into two parts, namely logic realization of the functions of the plug-in and data configuration for supporting the operation of the functions of the plug-in; the plug-in is allowed to have the capability of interacting with an external system through a wireless network, a simple algorithm can be packaged in the plug-in, and a complex algorithm is realized by the external system and then returns a result through interaction; the simulation of the operation of the medical health Internet of things product allows the data and function interaction with other Internet of things products and related business systems to be embodied.

Input data required by product simulation operation are provided by platform definition and sandbox, so that data standardization is guaranteed; the operation is based on a uniform platform, so that uniform management and accumulation of operation data are facilitated; sandbox data supports three types of standardized data required for product simulation operations. Inputting perception data of the product and data required by interaction with other Internet of things products; and thirdly, data needed by interaction with the relevant business system. Data required by product simulation operation are provided by the sandbox, and the data of the sandbox are standardized, so that standardization of a product simulation operation process is guaranteed. And establishing a corresponding and associated calling relation between the data elements and the corresponding sandbox data. Allowing a user to customize the data elements, a complementary extension mechanism of the defined data elements and the corresponding standardized sandboxed data is established. The standardized verification of the product is carried out from two aspects of data format and operation effect. And a platform display function is provided, so that the data flow condition between the plug-in and the platform (sandbox) can be conveniently displayed. And a platform-based function of joint debugging and development of different products is provided, so that the multi-product cooperation interaction is realized to complete complex service application.

Referring to industry standards, data elements in the present application, a data element has two major characteristics of an object class and a characteristic, and the object class is specifically a collection for collecting and recording data objects, such as families, residents, and the like; a characteristic refers to a feature that describes a subject's distinction from one another, such as occupation, income, gender, etc.

And describing a function implementation mode and a data relation among the support platform, the data sandbox and the function simulation plug-in so as to realize standardized verification and application scene display of the medical health Internet of things product. A medical health Internet of things product owner logs in the support platform to register information of the product and a management system thereof; the owner selects a corresponding platform-defined function simulation plug-in on the support platform for the function simulation plug-in and the function simulation plug-in management system, and invokes a plug-in configuration module of the support platform to configure the basic functions of the plug-in; if the product is an innovative product or the management system has innovative functions and no plug-in is defined, the user can download a plug-in development interface and technical specifications, develop plug-ins by himself, namely, the plug-ins (user-defined) in the figure 2, and simulate the plug-in management system and the function to simulate the plug-ins;

it is worth noting that whether the platform defines plug-ins or self-developed plug-ins, the platform is allowed to have the capability of interacting with an external system through a wireless network, and an owner calls a "plug-in installation module" of the support platform to install the self-defined function simulation plug-ins on the support platform, as shown in fig. 2, the specific plug-in installation module and the plug-in configuration module all adopt common computer programs, including but not limited to conventional plug-in installation and addition through pycharm 2018, and the details are not repeated herein;

it is worth noting that no matter whether the platform defined function simulation plug-in is directly selected or the self-defined function simulation plug-in is automatically developed, the plug-in only has functions and does not support the data of the plug-in automatic operation and display function, so that the plug-in is required to be further debugged;

the platform supports the operation of the functional simulation plug-in, and is divided into two aspects of plug-in function realization and data configuration, and the data configuration aspect adopts different support modes in two stages of test operation and formal operation; therefore, the plug-in function is realized on the supporting platform; referring to fig. 2, an owner invokes a product data configuration module of the support platform to configure perception data of the medical health internet of things product;

it is worth noting that the product data configuration module maintains a data element set of the medical health internet of things product perception data, hereinafter referred to as a product data element set or a data element;

it is worth noting that the product data element set and the 'medical health internet of things plug-in operation standardized data subject library' are in a corresponding relation, and data in the subject library is instantiation data corresponding to the product data elements; it is worth noting that the configuration process of the product data is the selection process of the product data elements, and the owner selects the data elements corresponding to the data generated by the product perception on line;

it should be noted that if the data generated by product sensing cannot find the corresponding data element, the owner should register the data element corresponding to this data online and submit a certain amount of corresponding instantiated data to the topic library, which includes, but is not limited to, for example, a wearable medical product, the data generated by sensing, that is, patient (wearer) information and data information and image information such as his blood pressure, body temperature, body fat, etc., but since the internet of things cannot be collected in real time, various data related to the above information are configured through modules on the support platform, such as: body temperature, blood pressure and the like, and further prestoring the simulated effect in a corresponding subject library in a data sandbox;

it is worth noting that the registered data elements and the submitted instantiated data need to be audited by a management department, if the audited data elements pass the audited data elements, the registered data elements are included in a product data element set, and the submitted instantiated data enters a data sandbox; after the registration and the audit are finished, the owner can continue to call a product data configuration module of the support platform, corresponding data elements are selected for all data generated by product perception, and product perception data configuration is finished; an owner calls an interactive data configuration module and a product data configuration module of the support platform to configure input data required by the medical health Internet of things product management system;

it should be noted that, referring to fig. 2, an "interactive data configuration module" is invoked to configure service data and interactive relationships that are required to be interactively acquired by a product management system to implement functions with service systems such as an area, a hospital, a primary health system, and the like, where the service systems include, but are not limited to, records, cases, and the like of medicine purchase of patients in the area;

it is worth noting that when the interactive relationship with the service system is configured, according to the requirements of interactive scenes and behaviors, the functional simulation module of the regional health information service system, the functional simulation module of the hospital information service system, and the functional simulation module of the basic health information service system can be further called to realize the functional interactive action with the service system needing to be interacted;

it is worth noting that the interactive data configuration module maintains the related data element sets of the informationized services such as the region, the hospital, the primary health and the like, which are referred to as service data element sets;

it is worth noting that the service data element set corresponds to a 'standardized data subject library for operating regional health information service system', 'standardized data subject library for operating hospital information service system', 'standardized data subject library for operating basic health information service system', and the data in the three subject libraries are instantiation data corresponding to the service data elements;

it is worth noting that the configuration process of the interactive data is the selection process of the service data elements, and the owner selects the data elements corresponding to the interactive data which needs to be acquired from the service systems of the region, the hospital, the primary health and the like on line; if the corresponding data elements cannot be found from the interactive data acquired from the business systems of the region, the hospital, the primary health and the like, the owner should register the data elements corresponding to the data on line and submit a certain amount of corresponding instantiation data to the theme library;

it is worth noting that the registered data elements and the submitted instantiated data need to be audited by a management department, if the audited data elements pass the audited data elements, the registered data elements are included in a product data element set, and the submitted instantiated data enters a data sandbox; after registration and audit are completed, an owner can continue to call an 'interactive data configuration module' of the support platform, and select corresponding data elements for interactive data which needs to be acquired from business systems of areas, hospitals, primary health and the like, so as to complete interactive data configuration; it is worth noting that a product data configuration module is called to configure data and interaction relation which are required to be interactively acquired with other medical health Internet of things products when the product management system realizes functions; it is worth noting that when the interaction relation with other products is configured, the corresponding products are required to support the interaction function;

it is worth noting that if no related medical health internet of things product can provide the interaction relationship, the function cannot be realized; thus, data configuration required by plug-in operation is completed on the support platform; then, the medical health Internet of things product and the management system thereof which are installed and configured call a 'standardized verification module' to enter a test operation stage;

notably, the "standardized verification module" allows the owner to manually input perception data through the medical health internet of things product plug-in; the standardized verification module performs format verification on input sensing data according to format requirements of data elements configured for the sensing data; if the format passes the format verification, returning to the previous plug-in installation and configuration link, and readjusting the function realization and the data configuration; if the product management system passes the format verification, the input data and the interaction action required by the configured product management system are called by taking the manually input sensing data as a trigger, and the result is displayed through a product management system plug-in;

the owner judges whether the test operation process achieves the expected effect or not through the product management system plug-in display result; if the expected effect is not achieved, returning to the previous plug-in installation and configuration link, and readjusting the function implementation and the data configuration; if the expected effect is achieved, the data format and the operation effect are verified, and the support platform adds the standardized verification information into the plug-in management information; so far, the test operation of the medical health Internet of things product and the management system thereof is completed on the support platform; after that, the medical health Internet of things product and the management system thereof which pass the standardization verification end the test operation and enter the formal operation stage; the medical health Internet of things product and the management system thereof which are run formally do not need to input sensing data manually as a trigger condition, but call data and interaction actions configured by the interactive data configuration module and the product data configuration module randomly to complete each running process and show the running effect; the calling condition and the running condition of each running process are recorded by an operation supervision module of the supporting platform; the support platform integrates and displays information such as product registration, plug-in configuration, plug-in installation, data configuration, standardized verification, operation supervision and the like through a visual management module.

As a preferred embodiment, it should be added that in this embodiment, the functional simulation plug-in must inherit the plug-in interface defined by the development specification, and the support platform obtains all plug-ins that implement the interface in a reflection manner and calls functions implemented by the plug-ins.

The plug-in interface is defined as follows:

public interface ILoTPlugin

{

/// <summary>

// function: obtaining plug-in information of internet of things

/// </summary>

/< return > plug-in description information </return >

PluginDescriptor GetPluginInfo();

/// <summary>

// function: installation plug-in

/// </summary>

void Install();

/// <summary>

// function: unloading plug-in

/// </summary>

void Uninstall();

/// <summary>

// function: plug-in activation

/// </summary>

void ProductRun();

/// <summary>

// function: plug-in aware data configuration, selection aware generation of data elements

/// </summary>

void ProductDataConfig();

/// <summary>

// function: service data configuration (service data element selection) for interactive acquisition

/// </summary>

void ProductInterActiveDataConfig();

}

The supporting platform interacts and manages all medical health Internet of things product plug-ins, and the definition is as follows:

/// <summary>

// function: platform-to-plug-in management

/// </summary>

public class PluginManager

{

/// <summary>

// function: plug-in management initialization, parsing and add plug-in assembly

/// </summary>

public static void Initialize()

{

// get all plug-in dll files

var pluginFiles = GetllPluginFiles();

// analyze plug-in dll Main program set

var mainPluginFile = ProcessPluginFile();

// plug-in file copies deployed and added to application domains

foreach (var plugin in pluginFiles，Where(x => !x，Name，Equals(mainPluginFile，Name, StringComparison，InvariantCultureIgnoreCase)))

PluginFileDeploy(plugin);

}

/// <summary>

// function: plug-in mounting

/// </summary>

/// <param name="systemName"></param>

public static void Installed(string systemName)

{

// get all installed plug-ins

var installedPluginSystemNames = InstalledPluginsFile();

// obtaining the installation status of the current plug-in

bool markedInstalled = installedPluginSystemNames

，ToList()

，Where(x => x，Equals(systemName, StringComparison，InvariantCultureIgnoreCase))

，FirstOrDefault() != null;

If the current plug-in state is not installed, adding to the list to be installed

if (!markedInstalled)

installedPluginSystemNames，Add(systemName);

var text = MergeInstalledPluginsFile(installedPluginSystemNames);

}

/// <summary>

// function: plug-in unloading

/// </summary>

/// <param name="systemName"></param>

public static void Uninstalled(string systemName)

{

}

}

The support platform mainly comprises the following components:

1: loading all plug-in program sets;

2: analyzing and initializing all plug-in sets;

3: adding a program set reference to an application domain;

4: and writing the file information of the plug-in, and finally, taking charge of the installation and the uninstallation of the plug-in.

It is noted that in order to achieve the hot plug effect, the http commit is called after installation and uninstallation, and the UnloadAppDomain () method restarts the application domain and reloads all the plug-ins.

In summary, in the embodiment, each module of the internet of things is built on a virtual support platform, in order to test, verify and intuitively operate each medical product, each data element information is transmitted to the module through the acquisition of a data sandbox, and the use simulation of the medical product is performed, where the data element includes specific attributes, and if the attribute defined by the data element is the name of a patient and the disease diagnosis name of the patient, the corresponding data element is zhang, and the disease diagnosis name of the patient is acute appendicitis.

Example 2:

in the embodiment of the invention, the relevant information of the medical health Internet of things sharing platform is comprehensively displayed, and the information comprises but is not limited to: the system comprises an analog inductor and an analog microprocessor of an Internet of things sensing layer, a cloud server of an Internet of things network layer, an application implementation module of an Internet of things application layer for implementing various application functions, and an Internet of things analog interconnection relationship among various Internet of things analog units. Various application scenes are matched for the application implementation module, the main application scene is determined by the main application scene determination module according to the user identity information, then all the Internet of things simulation units of the main application scene are screened out, and the Internet of things is simulated among the Internet of things simulation units of the main application scene to establish the Internet of things simulation interconnection relation of the corresponding scene, so that the functions of automatically determining the main application scene and displaying the Internet of things are realized, and the method is suitable for changeable application scenes.

An embodiment of the present invention provides a computer storage medium, i.e., a carrier of a support platform, where computer program instructions are stored, and the computer program instructions are used to execute the method according to embodiment 1.

In an embodiment of the invention, the processor may be an integrated circuit chip having signal processing capabilities. The Processor may be a general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware component.

The various methods, steps and logic blocks disclosed in the embodiments of the present invention may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of the method disclosed in connection with the embodiments of the present invention may be directly implemented by a hardware decoding processor, or implemented by a combination of hardware and software modules in the decoding processor. The software module may be located in ram, flash memory, rom, prom, or eprom, registers, etc. storage media as is well known in the art. The processor reads the information in the storage medium and completes the steps of the method in combination with the hardware.

The storage medium may be a memory, for example, which may be volatile memory or nonvolatile memory, or which may include both volatile and nonvolatile memory.

The nonvolatile Memory may be a Read-Only Memory (ROM), a Programmable ROM (PROM), an Erasable PROM (EPROM), an Electrically Erasable PROM (EEPROM), or a flash Memory.

The volatile Memory may be a Random Access Memory (RAM) which serves as an external cache. By way of example, and not limitation, many forms of RAM are available, such as Static Random Access Memory (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), SLDRAM (SLDRAM), and Direct Rambus RAM (DRRAM).

The storage media described in connection with the embodiments of the invention are intended to comprise, without being limited to, these and any other suitable types of memory.

Those skilled in the art will appreciate that the functionality described in the present invention may be implemented in a combination of hardware and software in one or more of the examples described above. When software is applied, the corresponding functionality may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Computer-readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a general purpose or special purpose computer.

Claims (2)

1. The medical health Internet of things product standardization and application scene display method is characterized by comprising the following steps:

s1: a medical health Internet of things product owner logs in a support platform to register information of a product and a management system thereof, in the step S1, the support platform comprises a plug-in creating module, a plug-in configuration module, a plug-in installation module, a function testing module, a function configuration module and an operation hosting module, and the step S2 is executed;

s2: the owner selects a corresponding platform-defined function simulation plug-in for the product and the management system thereof on the supporting platform, calls a plug-in configuration module of the supporting platform to configure the basic function of the function simulation plug-in, completes the basic function configuration function, and executes S4, if the owner can not search the function simulation plug-in on the supporting platform, executes S3, wherein the function simulation plug-ins can carry out data interaction and comprise the defined function simulation plug-ins and self-developed function simulation plug-ins;

s3: the owner can download the plug-in development interface and the technical specification on the supporting platform, develop the functional simulation plug-in of the product by himself, and continue to execute S2;

s4: the owner calls a product data configuration module of the support platform to configure sensing data of the medical health IOT product, performs function simulation and operation test on the product in a data sandbox on the support platform, performs standardized verification on the medical health IOT product through standardized data of the data sandbox and a standardized verification module, perfects that all information of the medical health IOT product is shared through the support platform, and in S4, the support platform comprises a plurality of function simulation plug-ins including a regional health informatization business system function simulation module, a hospital informatization business system function simulation module and a basic health informatization business system function simulation module, and further comprises a plurality of management modules including an operation supervision module, a visual management module, an interactive data configuration module, a standardized verification module and a product data configuration module, the data sandbox comprises a plurality of subject banks, wherein each subject bank comprises a medical health Internet of things plug-in operation standardized data subject bank, a regional health information service system operation standardized data subject bank, a hospital information service system operation standardized data subject bank and a basic health information service system operation standardized data subject bank.

2. The medical health Internet of things product standardization and application scene display system is characterized by comprising a function simulation plug-in, a support platform and a data sandbox, wherein the function simulation plug-in is a plug-in with a specific function, the plug-in is embedded into a corresponding program through a specific application program interface, the support platform can be provided with a plurality of function simulation plug-ins and product management plug-ins, the product management plug-ins are configured into function simulation plug-ins by users, the function simulation plug-ins are used for displaying products of the users, standardized data and function simulation are provided for medical health Internet of things products through the data sandbox, the support platform comprises a plug-in creating module, a plug-in configuration module, a plug-in installation module, a function test module, a function configuration module and an operation hosting module, and the support platform comprises a plurality of function simulation plug-ins which comprise a regional health information service system function simulation module, The functional simulation system comprises a hospital information service system functional simulation module and a basic-level health information service system functional simulation module, the supporting platform is further provided with a plurality of management modules which comprise an operation supervision module, a visual management module, an interactive data configuration module, a standardized verification module and a product data configuration module, the data sandbox comprises a plurality of theme banks, and the theme banks comprise a medical health Internet of things plug-in operation standardized data theme bank, a regional health information service system operation standardized data theme bank, a hospital information service system operation standardized data theme bank and a basic-level health information service system operation standardized data theme bank.

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