CN118210501A - Interactive teaching application system based on B/S architecture - Google Patents

Abstract

The invention relates to the technical field of interactive teaching, in particular to a B/S architecture-based interactive teaching application system, which comprises a front-end interaction module, a background management module, an Internet of things equipment module and a rear-end control module, wherein the front-end interaction module is connected with the background management module; the back-end control module is in communication connection with the front-end interaction module, the background management module and the Internet of things equipment module; the background management module is configured to manage the front-end interaction module and the Internet of things equipment module; the front-end interaction module comprises: the interaction terminal is configured to build an interaction scene based on the VUE framework, and the interactive elements of the interaction scene are packaged by utilizing the DOM box; and the daemon unit is configured to respond by detecting the system related data and receive a command from the background management module. The interactive teaching application system aims to solve the problems that a traditional interactive teaching application system depends on a game engine or a media container and occupies a large amount of network resources.

Description

Interactive teaching application system based on B/S architecture

Technical Field

The invention relates to the technical field of interactive teaching, in particular to an interactive teaching application system based on a B/S architecture.

Background

The interactive teaching is a teaching mode based on a computer technology, and interaction and cooperation between students and teachers are realized through the support of the computer software and hardware technology, so that teaching effect and learning experience are improved; the interactive teaching can provide various learning modes and teaching resources, such as games, simulation experiments, virtual reality and the like, so that the learning efficiency and interest of students are improved.

At present, in the existing interactive teaching application, aiming at the problems that a game scene type game engine such as Cocos2D, unity/Unity3D or a media container such as Flash and HTML5 player plug-in units is usually not separated, the whole portability of the interactive teaching application is poor, the running environment is limited, the development environment is limited and the like, the manpower requirements of development, iteration and operation are increased; on the other hand, in the traditional interactive teaching application based on CMS (Content MANAGEMENT SYSTEM), the Content distribution usually adopts a form of "resource pushing to device-device running resource" of C/S (Cl ient/Server ), all resources including interactive Content are packaged and pushed to the client in the Content distribution stage, and the resource package has a larger volume because the resource package contains a large amount of data such as images, sound and video, so that the device and the Server both use a larger amount of network resources for transmitting the resources during pushing, and meanwhile, the interactive teaching application built based on the CMS architecture usually includes running detection functions of the client, such as screen inspection, online state detection, and the like, but lacks more sufficient remote control management functions; for this purpose, we propose an interactive teaching application system based on B/S architecture.

Disclosure of Invention

The invention aims to provide an interactive teaching application system based on a B/S architecture, which is used for solving the problems that the traditional interactive teaching application system depends on a game engine or a media container and occupies a large amount of network resources.

The invention provides an interactive teaching application system based on a B/S architecture, which comprises a front-end interaction module, a background management module, an Internet of things equipment module and a rear-end control module; the back-end control module is in communication connection with the front-end interaction module, the background management module and the Internet of things equipment module; the background management module is configured to manage the front-end interaction module and the Internet of things equipment module;

The front-end interaction module comprises:

the interaction terminal is configured to build an interaction scene based on the VUE framework, and the interactive elements of the interaction scene are packaged by utilizing the DOM box;

And the daemon unit is configured to respond by detecting the system related data and receive a command from the background management module.

Further, the daemon unit is configured to respond by detecting system related data comprising:

and detecting the operation state of the content display unit based on the heartbeat with the working condition data and a preset question-answering mechanism.

Further, detecting the operation state of the content presentation unit based on the heartbeat with the working condition data and the preset question-answering mechanism specifically includes:

Restarting the Web container used for storing the display content by the interactive terminal when the content display unit is suspended or hung;

Judging whether the content display unit is target content or not, and if not, redirecting and changing the content display unit based on preset parameters;

Restarting the Web container when the content presentation unit stops responding based on the heartbeat data of the content presentation unit;

and collecting equipment related information to the back-end control module, and executing a remote control command from the back-end control module.

Further, the interactive terminal is based on Chromi um and is in communication connection with the daemon unit through a preset API, and a dynamic parameter entry unit is further arranged in the interactive terminal and is configured to dynamically receive an incoming parameter and respond when the system operates.

Further, building an interactive scene based on the VUE frame, and encapsulating the interactable elements of the interactive scene by utilizing the DOM box comprises:

setting a basic background for the interactive scene and setting a DOM box for interactable elements of the interactive scene;

Establishing an action model based on the event and the response, and realizing the interaction behavior response of the interactable element by utilizing the action model;

And packaging the interactive scene and uploading the interactive scene to a back-end control module.

Further, the background management module includes:

the content management unit is configured to manage the interactable content on the front-end interaction module;

the device management unit is configured to manage the front-end interaction module and the Internet of things device;

And the user information management unit is configured to manage the user roles, the rights and the account information.

Further, the background management module is used for content distribution, and comprises:

determining whether to add content, if so, adding content selection compression package, picture, style, theme, difficulty and determining name;

determining whether content distribution is carried out, if not, ending the content distribution;

If the content distribution is determined, selecting a secret room and an interactive screen, and determining whether to modify the state, if so, deactivating or activating the interactive screen, and if not, ending the content distribution after the content selection;

and determining whether to add the content, and if not, entering a step of determining to distribute the content.

Further, the background management module is used for content management, and comprises:

Inquiring content management content and selecting content management operation, if the operation is deleting, deleting the content and ending;

if the operation is editing, editing the content information, selecting pictures, styles, themes, difficulty and filling in names.

Further, the background management module is used for device management, and comprises:

determining whether the device is an interactive terminal or not based on the current dynamic selection device;

If yes, selecting operation through an interactive screen button, wherein the operation at least comprises content inspection, content management and power management;

if not, determining whether the device is the Internet of things device, and if not, ending;

if the device is the Internet of things device, determining whether the device is controllable, and if the device is not controllable, displaying device information;

and if the control is controllable, displaying the operable content, and calling the control interface of the Internet of things through the control button.

Further, the back-end control module includes:

The content and interaction data management unit is used for resource management, interaction data management, content push management, software version management, simulation information generation and interaction information template storage;

The device control unit is used for collecting device information, managing device information, controlling interaction devices and controlling the Internet of things device;

and the statistics unit is used for counting the pushing information, the operation information and the equipment information.

The technical scheme of the embodiment of the invention has at least the following advantages and beneficial effects:

According to the interactive teaching application system based on the B/S architecture, provided by the invention, through separating from the modes of the game engine and the media container, setting up the front-end interaction module, the background management module, the Internet of things equipment module and the back-end module, setting up an interaction scene based on the VUE frame, and packaging interactable elements of the interaction scene by using the DOM box, so that the content display can be directly carried out only by using a browser without depending on the game engine or the media container; content and client equipment management similar to the existing CMS architecture are realized on the basis of the B/S architecture, and the background management module can carry out management configuration on the front-end interaction module and the Internet of things equipment module, so that a large amount of network bandwidth and flow are not consumed in the content distribution and management process to carry out resource pushing and updating; on the other hand, by arranging the daemon unit and responding by detecting the related data of the system, the monitoring and management of the terminal equipment are realized.

Drawings

FIG. 1 is a schematic diagram of an interactive teaching application system based on a B/S architecture according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an overall architecture of an interactive teaching application system based on a B/S architecture according to an embodiment of the present invention

Fig. 3 is a schematic flow chart of content distribution of a background management module according to an embodiment of the present invention;

fig. 4 is a schematic flow chart of content management of a background management module according to an embodiment of the present invention;

fig. 5 is a schematic flow chart of a background management module device management according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a back-end control module according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

It will be appreciated that "system," "apparatus," "unit" and/or "module" as used herein is one method for distinguishing between different components, elements, parts, portions or assemblies at different levels. However, if other words can achieve the same purpose, the words can be replaced by other expressions.

As used in this specification and the claims, the terms "a," "an," "the," and/or "the" are not specific to a singular, but may include a plurality, unless the context clearly dictates otherwise. In general, the terms "comprises" and "comprising" merely indicate that the steps and elements are explicitly identified, and they do not constitute an exclusive list, as other steps or elements may be included in a method or apparatus.

A flowchart is used in this specification to describe the operations performed by the system according to embodiments of the present specification. It should be appreciated that the preceding or following operations are not necessarily performed in order precisely. Rather, the steps may be processed in reverse order or simultaneously. Also, other operations may be added to or removed from these processes.

Referring to fig. 1 to 6, the invention provides an interactive teaching application system based on a B/S architecture, which comprises a front-end interaction module, a background management module, an internet of things equipment module and a back-end control module; the back-end control module is in communication connection with the front-end interaction module, the background management module and the Internet of things equipment module; the background management module is configured to manage the front-end interaction module and the Internet of things equipment module;

The front-end interaction module comprises:

the interaction terminal is configured to build an interaction scene based on the VUE framework, and the interactive elements of the interaction scene are packaged by utilizing the DOM box;

The daemon unit is configured to respond by detecting system related data and receive commands from the background management module;

Specifically, the front-end interaction module is configured with an interaction screen supporting multi-touch control and a matched computer system, and the interaction terminal and the daemon unit are configured to run on the system; the daemon unit detects, for example, the operating state of the content presentation unit, the operating state of the operating system, and the device operating condition itself through the heartbeat with the operating condition data and the preset question-answering mechanism to make a response that is beneficial to the stable operation of the system, including, but not limited to, the following responses that detect the operating state of the content presentation unit based on the heartbeat with the operating condition data and the preset question-answering mechanism:

Restarting the Web container used for storing the display content by the interactive terminal when the content display unit is suspended or hung;

Judging whether the content display unit is target content or not, and if not, redirecting and changing the content display unit based on preset parameters; the content display unit is pre-configured to allow the runtime to receive operation parameters, and when the load content of the content display unit is inconsistent with the expected content, the daemon unit can redirect the display content of the content display unit to target content through a preset parameter inlet;

Restarting the Web container when the content presentation unit stops responding based on the heartbeat data of the content presentation unit; specifically, the Web container is configured to periodically send heartbeat data to the daemon unit and the back-end control module, wherein the heartbeat data comprises counting, timing and running information, so that whether the content display unit is in a normal running state can be judged only by judging whether the heartbeat data is in a normal sending or receiving state; the abnormal state of the content display unit is usually a non-response state, namely, the interface is blocked, the operation is non-response, the content display unit does not end operation, but the usability is lost;

collecting equipment related information to a back-end control module, and executing a remote control command from the back-end control module;

the response measures are helpful for improving the stability of the system, ensuring the normal display and operation of the interactive teaching content, and the daemon unit can automatically monitor the state of the system and respond, thereby reducing the need of manual intervention and improving the automatic operation and maintenance capability of the system.

Preferably, the interactive terminal is based on Chromi um and is in communication connection with the daemon unit through a preset API, and a dynamic parameter entry unit is further arranged in the interactive terminal and is configured to dynamically receive and respond to the incoming parameters when the system operates;

Specifically, the customized content presentation unit based on Chromi um can provide more comprehensive API support and more detailed heartbeat data transfer, so that in an environment without running the customized content presentation program, the content presentation unit can also carry content by using a standard Webkit core or a Chrome browser, that is, provide support for the heartbeat detection function of the daemon through the customized API, and specifically includes: designing a pipeline outside the Web container for storing the display content, establishing pipeline communication connection with the daemon unit, and transmitting heartbeat data; adding a dynamic parameter entry allowing the content presentation unit to dynamically receive incoming parameters and respond at run-time; adding a content API, configuring an interactive terminal to be capable of controlling the exhibition form of the content, such as more personalized interactive experience of stopping/starting a menu, a zoom interface and the like under a specific scene; finally, through packaging the specific API interfaces, the content display unit can directly send or receive information to other units, so that the problem of cross-process communication of the local application of the existing teaching system is solved;

preferably, building an interactive scene based on the VUE frame, and encapsulating the interactable elements of the interactive scene by using the DOM box includes:

Setting a basic background for the interactive scene and setting a DOM box for interactable elements of the interactive scene; the basic background can be in the form of media such as pictures, js animation or video, is tiled with fixed size and supports the dragging through touch interaction; setting up DOM boxes for interactable elements of an interactive scene, wherein the DOM boxes at least comprise response matching actions when the boxes of the interactable elements are triggered by touch or other events, including but not limited to actions such as displaying information, playing animation, generating Resi ze behavior and the like; realizing the interactive content design independent of a game engine such as Cocos2 d/Unity or a plug-in module such as F l ash; it should be noted that the VUE framework is a JavaScr ipt front end framework, and the VUE framework is mainly used for constructing an interactive Web interface, and the core is a responsive data binding and componentization system; the DOM box is specifically an operation box model of the object and is used for accommodating page packaging forms of specific content elements so as to perform unified style management, interaction management, event management and the like, and has wide application scenes, such as the interaction behavior commonly used for judging specific areas in the scheme; resize behavior is typically an operation in which a user can change its size by dragging or resizing an interface element in a web page.

Establishing an action model based on the event and the response, and realizing the interaction behavior response of the interactable element by utilizing the action model; packaging the interactive scene and uploading the interactive scene to a back-end control module; specifically, a single dock mirror image or dockerfi l e resource package of the interactive scene wind device is directly loaded to a dock container for instantiation through a back-end control module if needed, and an access address of interactive content is pushed to an interactive terminal, so that the content can normally run in the environment of a standard Web browser, touch, click, drag and other interactive operations can be realized under the condition of not depending on an additional graphic engine, dock mirror image packaging of the content is supported, and better cross-platform characteristics are realized; the mode that the interactive teaching content can be loaded only by loading the corresponding content address in the interactive terminal is realized, and the interactive page content is not required to be preloaded in the form of a resource package in the terminal equipment for storage in advance; according to the embodiment, the interaction scene is built through the VUE framework, and the action model is built, so that rich interaction behavior response is realized, and the attraction and interestingness of teaching contents are improved; the interactive content is packaged into a dock mirror image or dockerfi l e resource package, and the back-end control module is loaded and instantiated, so that the problem that the interactive page content is not needed to be preloaded in the storage of the terminal equipment in advance is solved, and the storage pressure of the terminal equipment is reduced; through the dock mirror image packaging, the teaching content can run on different platforms and can keep consistent interaction experience.

Preferably, the background management module includes:

The content management unit is configured to manage the interactable content on the front-end interaction module; through the content management unit, an administrator can conveniently manage and update the interactive teaching content, quickly respond to the user demand, and promote the instantaneity and interactivity of the teaching content;

The device management unit is configured to manage the front-end interaction module and the Internet of things device; the equipment management unit can help an administrator to remotely monitor the front-end interaction module and manage the equipment of the Internet of things, discover and solve equipment faults in time, and ensure the stable operation of the interactive teaching content;

The user information management unit is configured to manage user roles, authorities and account information; the manager is helped to manage the user authority and roles in a refined mode, the safety and compliance of teaching contents are guaranteed, only authorized users are guaranteed to conduct management operation, and the safety and reliability of the system are improved.

As shown in fig. 3, the background management module is used for content distribution, and includes:

step S1: determining whether to add content, if so, adding content selection compression package, picture, style, theme, difficulty and determining name;

step S11: determining whether content distribution is carried out, if not, ending the content distribution;

Step S12: if the content distribution is determined, selecting a secret room and an interactive screen, and determining whether to modify the state, if so, deactivating or activating the interactive screen, and if not, ending the content distribution after the content selection;

step S13: determining whether to add content, if not, entering the step of determining to distribute content, namely entering the step S12;

According to the embodiment, the content is added, managed and distributed rapidly through the background management module, the flexibility and convenience of content management are improved, the states of different interactive screens can be managed flexibly through the background management module, and the remote control and supervision of the interactive screens are realized.

As shown in fig. 4, the background management module is used for content management, and includes:

Step S2: inquiring content management content and selecting content management operation, if the operation is deleting, deleting the content and ending;

step S21: if the operation is editing, editing content information, selecting pictures, styles, themes and difficulties, filling in names, and ending the operation;

According to the embodiment, the content management operation is quickly performed through the background management module, the attribute of the content can be adjusted and modified through the editing function, and the fine management of the content is realized so as to adapt to different teaching requirements.

As shown in fig. 5, the background management module is used for device management, and includes:

Step S3: determining whether the device is an interactive terminal or not based on the current dynamic selection device;

Step S31: if yes, selecting operation through an interactive screen button, wherein the operation at least comprises content inspection, content management and power management; the content inspection is specifically to call a screenshot interface, the content management is specifically to push and redirect the content to a content management module, the power management is specifically to restart an equipment switch, the list selection operation is inquired after the content inspection is moved to an equipment list, the restarting interface is called if the equipment list selection operation is restarted, and the power button is triggered and the power control interface is called if the equipment list selection operation is a power button;

step S32: if not, determining whether the device is the Internet of things device, and if not, ending;

Step S33: if the device is the Internet of things device, determining whether the device is controllable, and if the device is not controllable, displaying device information;

Step S34: if the control is available, displaying the operable content, and calling the control interface of the Internet of things through the control button;

The embodiment realizes the management of the equipment through the background management module, realizes the content inspection, the content management and the power management, improves the management efficiency of the equipment, and realizes the remote control of the equipment through the power management and the equipment control function of the Internet of things, including the on-off operation and other operations; through carrying out content inspection and management to the equipment, the equipment problem can be found and solved in time, and the stability and reliability of teaching environment are ensured.

As shown in fig. 6, preferably, the back-end control module includes: the content and interaction data management unit is used for resource management, interaction data management, content push management, software version management, simulation information generation and interaction information template storage; the device control unit is used for collecting device information, managing device information, controlling interaction devices and controlling the Internet of things device; the statistics unit is used for counting the pushing information, the operation information and the equipment information; specifically, the back-end control module operates at the server end of the system, provides main function support for the front end, the equipment and the management background as shown in fig. 6, and realizes unified management and control of various equipment through the internet of things equipment in the internet of things equipment module docking network, wherein the internet of things equipment mainly comprises two types of interactable equipment directly participating in scene interaction and internet of things equipment only managed through remote control, and is not limited further herein; the back-end control module realizes unified control over various devices, push information, operation information and device information can be collected and analyzed in real time through the statistics unit, data support is provided for decision making, and the system operation is optimized and user experience is improved; through the content and interaction data management unit, the management of resources and the pushing of the content can be realized.

In summary, the interactive teaching application system based on the B/S architecture provided by the invention is characterized in that by separating from the modes of the game engine and the media container, setting up an interactive scene based on the VUE frame by setting the front-end interactive module, the background management module, the Internet of things equipment module and the back-end module, and packaging interactable elements of the interactive scene by using the DOM box, the content display can be directly carried out only by a browser without depending on the game engine or the media container; and the management of the content and the client equipment similar to the existing CMS architecture is realized on the basis of the B/S architecture, and the background management module can carry out management configuration on the front-end interaction module and the Internet of things equipment module, so that a large amount of network bandwidth and traffic are not consumed in the distribution and management process of the content to carry out resource pushing and updating.

While the basic concepts have been described above, it will be apparent to those skilled in the art that the foregoing detailed disclosure is by way of example only and is not intended to be limiting. Although not explicitly described herein, various modifications, improvements, and adaptations to the present disclosure may occur to one skilled in the art. Such modifications, improvements, and modifications are intended to be suggested within this specification, and therefore, such modifications, improvements, and modifications are intended to be included within the spirit and scope of the exemplary embodiments of the present invention.

Meanwhile, the specification uses specific words to describe the embodiments of the specification. Reference to "one embodiment," "an embodiment," and/or "some embodiments" means that a particular feature, structure, or characteristic is associated with at least one embodiment of the present description. Thus, it should be emphasized and should be appreciated that two or more references to "an embodiment" or "one embodiment" or "an alternative embodiment" in various positions in this specification are not necessarily referring to the same embodiment. Furthermore, certain features, structures, or characteristics of one or more embodiments of the present description may be combined as suitable.

Furthermore, the order in which the elements and sequences are processed, the use of numerical letters, or other designations in the description are not intended to limit the order in which the processes and methods of the description are performed unless explicitly recited in the claims. While certain presently useful inventive embodiments have been discussed in the foregoing disclosure, by way of various examples, it is to be understood that such details are merely illustrative and that the appended claims are not limited to the disclosed embodiments, but, on the contrary, are intended to cover all modifications and equivalent arrangements included within the spirit and scope of the embodiments of the present disclosure. For example, while the system components described above may be implemented by hardware devices, they may also be implemented solely by software solutions, such as installing the described system on an existing server or mobile device.

Likewise, it should be noted that in order to simplify the presentation disclosed in this specification and thereby aid in understanding one or more inventive embodiments, various features are sometimes grouped together in a single embodiment, figure, or description thereof. This method of disclosure does not imply that the subject matter of the present description requires more features than are set forth in the claims. Indeed, less than all of the features of a single embodiment disclosed above.

Finally, it should be understood that the embodiments described in this specification are merely illustrative of the principles of the embodiments of this specification. Other variations are possible within the scope of this description. Thus, by way of example, and not limitation, alternative configurations of embodiments of the present specification may be considered as consistent with the teachings of the present specification. Accordingly, the embodiments of the present specification are not limited to only the embodiments explicitly described and depicted in the present specification.

Claims (10)

1. The interactive teaching application system based on the B/S architecture is characterized by comprising a front-end interaction module, a background management module, an Internet of things equipment module and a rear-end control module; the back-end control module is in communication connection with the front-end interaction module, the background management module and the Internet of things equipment module; the background management module is configured to manage the front-end interaction module and the Internet of things equipment module;

The front-end interaction module comprises:

the interaction terminal is configured to build an interaction scene based on the VUE framework, and the interactive elements of the interaction scene are packaged by utilizing the DOM box;

And the daemon unit is configured to respond by detecting the system related data and receive a command from the background management module.

2. The B/S architecture based interactive tutorial application system of claim 1, wherein the daemon is configured to respond by detecting system related data comprises:

and detecting the operation state of the content display unit based on the heartbeat with the working condition data and a preset question-answering mechanism.

3. The interactive teaching application system based on the B/S architecture according to claim 2, wherein detecting the operation state of the content presentation unit based on the heartbeat with the working condition data and the preset question-answering mechanism specifically comprises:

Restarting the Web container used for storing the display content by the interactive terminal when the content display unit is suspended or hung;

Judging whether the content display unit is target content or not, and if not, redirecting and changing the content display unit based on preset parameters;

Restarting the Web container when the content presentation unit stops responding based on the heartbeat data of the content presentation unit;

and collecting equipment related information to the back-end control module, and executing a remote control command from the back-end control module.

4. The interactive teaching application system based on the B/S architecture according to claim 1, wherein the interactive terminal is based on Chromium and is in communication connection with the daemon unit through a preset API, and a dynamic parameter entry unit is further provided in the interactive terminal, and the dynamic parameter entry unit is configured to dynamically receive an incoming parameter and respond when the system is running.

5. The B/S architecture-based interactive teaching application system of claim 1, wherein constructing the interactive scene based on the VUE frame and encapsulating the interactable elements of the interactive scene with the DOM box comprises:

setting a basic background for the interactive scene and setting a DOM box for interactable elements of the interactive scene;

Establishing an action model based on the event and the response, and realizing the interaction behavior response of the interactable element by utilizing the action model;

And packaging the interactive scene and uploading the interactive scene to a back-end control module.

6. The B/S architecture-based interactive tutorial application system of any one of claims 1-5, wherein the background management module comprises:

the content management unit is configured to manage the interactable content on the front-end interaction module;

the device management unit is configured to manage the front-end interaction module and the Internet of things device;

And the user information management unit is configured to manage the user roles, the rights and the account information.

7. The B/S architecture-based interactive tutorial application system of claim 6, wherein the background management module is configured for content distribution, comprising:

determining whether to add content, if so, adding content selection compression package, picture, style, theme, difficulty and determining name;

determining whether content distribution is carried out, if not, ending the content distribution;

If the content distribution is determined, selecting a secret room and an interactive screen, and determining whether to modify the state, if so, deactivating or activating the interactive screen, and if not, ending the content distribution after the content selection;

and determining whether to add the content, and if not, entering a step of determining to distribute the content.

8. The B/S architecture-based interactive tutorial application system of claim 6, wherein the background management module is configured to manage content, and comprises:

Inquiring content management content and selecting content management operation, if the operation is deleting, deleting the content and ending;

if the operation is editing, editing the content information, selecting pictures, styles, themes, difficulty and filling in names.

9. The B/S architecture-based interactive tutorial application system of claim 6, wherein the background management module is configured to manage devices, and comprises:

determining whether the device is an interactive terminal or not based on the current dynamic selection device;

If yes, selecting operation through an interactive screen button, wherein the operation at least comprises content inspection, content management and power management;

if not, determining whether the device is the Internet of things device, and if not, ending;

if the device is the Internet of things device, determining whether the device is controllable, and if the device is not controllable, displaying device information;

and if the control is controllable, displaying the operable content, and calling the control interface of the Internet of things through the control button.

10. The B/S architecture based interactive tutorial application system of claim 6, wherein the back-end control module comprises:

The content and interaction data management unit is used for resource management, interaction data management, content push management, software version management, simulation information generation and interaction information template storage;

The device control unit is used for collecting device information, managing device information, controlling interaction devices and controlling the Internet of things device;

and the statistics unit is used for counting the pushing information, the operation information and the equipment information.