CN110867107B - AI-based multidisciplinary teaching resource comprehensive management system and management method - Google Patents

Abstract

The invention relates to an AI-based multidisciplinary teaching resource comprehensive management system, which comprises an AI-based data processing server, an intelligent gateway, a teaching resource hardware management library, a teaching resource software management library, a teaching outline editing terminal and a teaching terminal, wherein the AI-based data processing server is respectively connected with the teaching resource hardware management library, the teaching resource software management library, the teaching outline editing terminal and the teaching terminal through the intelligent gateway. The management method comprises the five steps of system networking, system prefabrication, teaching activities, resource recycling and the like. On one hand, the invention greatly improves the working efficiency of allocation and management operation of various different teaching resources; on the other hand, the teaching activity developing efficiency is improved, and meanwhile, the phenomena of high teaching equipment idle rate and teaching resource waste caused by insufficient teaching resources influencing normal teaching activity developing and insufficient teaching resource allocation precision are effectively prevented.

Description

AI-based multidisciplinary teaching resource comprehensive management system and management method

Technical Field

The invention relates to a multidisciplinary teaching resource comprehensive management system and a management method based on an AI (Artificial intelligence) basis, belonging to the technical field of teaching equipment.

Background

At present, in the development of teaching activities in various schools, particularly in the development of various subject teaching activities in colleges and universities, a large number of hardware teaching resources such as teaching aids, teaching experimental equipment, teaching training equipment and the like and application of software teaching resources such as audio resources, image resources, video resources, computer software systems and the like are often involved, the use amount of various teaching resources is huge, the use frequency is high, the adjustment, allocation and management work of the teaching resources is still carried out in the conventional modes of regularly reporting teaching plans and the like, although the requirements of the teaching work can be met to a certain extent, on one hand, the labor intensity of the teaching resource adjustment, allocation and management work is high, the work efficiency is low, the management work cost is high, and the universality is poor, and the teaching resource allocation work cannot be timely adjusted according to the use of the teaching activities; on the other hand, the difficulty of purchasing, scheduling and managing various teaching resources in teaching activities is high, and the teaching activities are different from the teaching environment, so that the requirements of the teaching activities cannot be effectively met or serious resource waste is caused due to high idle rate of teaching equipment.

Therefore, in order to solve the problem, it is urgently needed to develop a completely new management system to meet the requirement of practical use.

Disclosure of Invention

The invention aims to overcome the defects and provides a comprehensive management system and a management method for multidisciplinary teaching resources based on an AI (artificial intelligence) basis.

In order to realize the purpose, the invention is realized by the following technical scheme:

the AI-based data processing server is respectively connected with the teaching resource hardware management library, the teaching resource software management library, the teaching outline editing terminal and the teaching terminal through the intelligent gateway, the teaching outline editing terminals and the teaching terminals are respectively provided with a plurality of teaching outline editing terminals, each teaching outline editing terminal forms at least one teaching activity local area network through the intelligent gateway, and the teaching activity local area networks are mutually connected through the intelligent gateway.

Further, teaching resource hardware management storehouse include storehouse, access control system, code printer, scanner, intelligent goods shelves, goods shelves robot, wherein at least one storehouse door is established to the storehouse, an access control system, a code printer and a scanner are established to storehouse door department, intelligent goods shelves are a plurality of, are the array structure equipartition in the storehouse, and goods shelves robot is a plurality of and all are located the storehouse, access control system, code printer, scanner, intelligent goods shelves, goods shelves robot all with intelligent gateway within a definite time through communication network establish data connection.

Furthermore, the teaching resource software management library comprises at least one control terminal computer and a plurality of data storage servers, each data storage server forms at least one data service local area network through an intelligent gateway, and the data service local area network establishes data connection with the control terminal computer and the AI-based data processing server through the intelligent gateway respectively.

Further, the teaching terminal comprises a bearing frame, a bearing plate, an operation panel, a main display, an auxiliary display, an operation keyboard, a turntable mechanism, a linear displacement table, a directional loudspeaker and a control circuit, wherein the bearing frame is a column frame structure with an axis vertical to a horizontal plane, the upper end surface of the bearing plate is connected with the bearing plate, an included angle of 0-60 degrees is formed between the upper end surface of the bearing plate and the horizontal plane, a U-shaped groove-shaped bearing groove is formed in the upper end surface of the bearing plate, the operation panel is hinged to the upper end surface of the bearing plate and forms an included angle of 0-135 degrees, the area of the operation panel is 1.1-1.5 times of that of the upper end surface of the bearing plate, the main display is connected with the lower end surface of the operation panel and coaxially distributed, when the included angle of the operation panel and the upper end surface of the bearing plate is 0 degree, the main display is embedded in the bearing groove and coaxially distributed with the bearing plate, and the distance between the main display and the bottom of the bearing groove is 5-20 mm, the operation keyboard is at least one, inlay in bearing tank bottom and be 0-30 contained angle with bearing tank bottom, bearing plate left surface and right flank are articulated with a linear displacement platform through revolving stage mechanism respectively, linear displacement platform axis is 0-135 contained angle with the loading board upper end, and every direct displacement platform all with an auxiliary display sliding connection, just auxiliary display front end face and linear displacement platform axis parallel distribution, directional loudspeaker are at least two, inlay in loading board front end face and loading board directional loudspeaker axis and loading board front end face be 45 contained angles, control circuit inlays in bearing the frame to respectively with main display, auxiliary display, operation keyboard, revolving stage mechanism, linear displacement platform, directional loudspeaker and intelligent gateway electrical connection.

Further, the loading board and the upper end face of the loading frame and the lower end face of the control panel and the side wall of the loading groove are connected with each other through an elastic telescopic rod, two ends of the elastic telescopic rod are respectively hinged with the loading board, the loading frame, the control panel and the loading groove, the elastic telescopic rod is any one of at least two stages of spring telescopic rods, hydraulic telescopic rods and pneumatic telescopic rods, and an elastic cushion block is arranged between the lower end face of the control panel and the upper end face of the loading board.

Furthermore, at least one main display is connected with the lower end face of the control panel in a sliding mode through a sliding rail, the main display and the auxiliary display are connected in parallel and are multi-point touch displays, a CCD camera and a microphone are arranged on the side surfaces of the main display and the auxiliary display, and the CCD camera and the microphone are electrically connected with the control circuit.

Furthermore, the teaching outline editing terminal is any one or more of a personal computer and an intelligent mobile communication terminal.

A management method based on an AI-based multidisciplinary teaching resource comprehensive management system comprises the following steps:

s1, networking the system, firstly constructing at least one core data service platform taking an AI-based data processing server as a center, then respectively constructing at least one teaching resource hardware management library and teaching resource software management library, allocating teaching outline editing terminals for relevant staff, allocating a plurality of teaching terminals for relevant classrooms, then networking the teaching resource hardware management library, the teaching resource software management library, the teaching outline editing terminals and the teaching terminals with the AI-based data processing server through an intelligent gateway and a communication network, and allocating independent data communication addresses to complete the construction of the management system;

s2, prefabricating a system, assembling the identity identification codes of hardware teaching equipment and a software teaching system required by teaching activities through a teaching resource hardware management library and a teaching resource software management library respectively after the step S1 is completed, assembling the identity identification codes in the corresponding hardware teaching equipment and the corresponding software teaching system on the one hand, storing the hardware teaching equipment to the corresponding position of only a shelf in the hardware teaching equipment according to the assembled identity identification codes, and storing the software teaching system in an independent storage space of the teaching resource software management library; on the other hand, each identification code is stored in the AI-based data processing server, an identification code data retrieval list, a data retrieval engine subprogram, a retrieval data pointer subprogram and a data pushing control strategy are built in the AI-based data processing server, the data retrieval engine subprogram is pushed to each teaching outline editing terminal and each teaching terminal respectively, finally, staff identification is carried out on the staff of the professors through the teaching outline editing terminals, the staff identification is carried out through the teaching terminals, and the identified staff identification information and the student identification information are stored in independent areas of the AI-based data processing server for standby;

s3, prefabricating teaching, after the step S2 is completed, firstly, assembling a teaching outline according to the teaching activity requirement by a teaching staff through a teaching outline editing terminal, inputting teaching hardware equipment identity identification codes and teaching software system identity identification codes related to the teaching activity into the teaching outline according to the teaching activity requirement in the assembled teaching outline, inserting the teaching outline into the corresponding position of the teaching outline, and respectively storing the assembled teaching outlines into independent areas in an AI-based data processing server for later use, so that the teaching activity can be carried out; in the process of

S4, teaching activities are carried out, after S3 steps are completed, teaching interaction can be carried out, when the teaching activities are carried out, after identity recognition is completed by teaching staff through a teaching outline editing terminal, a corresponding teaching outline is selected from an AI-based data processing server, on one hand, the selected teaching outline is sent to a corresponding teaching terminal, and on the other hand, corresponding teaching hardware and teaching software are selected from a teaching resource hardware management library and a teaching software management library for standby according to teaching hardware equipment identity recognition codes and teaching software system identity recognition codes related in the selected teaching activities in the teaching outline; then, establishing data connection between the teaching outline editing terminal and each corresponding teaching terminal, assigning a corresponding student teaching auxiliary authority for the corresponding teaching terminal, and sending the obtained student identity identification information corresponding to the teaching auxiliary authority teaching terminal to a teaching resource hardware management library and a teaching resource software management library for standby through an AI-based data processing server; secondly, the student finishes identity recognition through a teaching terminal to prepare for learning, and meanwhile, the student who obtains the teaching auxiliary authority receives teaching hardware resources specified by the teaching outline after the student is recognized through an access control system of a teaching resource hardware management library and receives the teaching hardware resources to a teaching activity development place; on the other hand, teaching software resources specified by the teaching outline are called from the teaching resource software management library through the AI-based data processing server and are directly distributed to each teaching terminal connected with the teaching outline editing terminal for standby; finally, the teacher directly utilizes the acquired teaching hardware resources in the classroom where the teaching terminal is located and matches with teaching software resources distributed to each teaching terminal to synchronously carry out teaching activities, and the student carries out corresponding learning activities through the teaching terminal and stores data generated by the learning activities in corresponding student identity identification information positions in the AI-based data processing server;

s5, recovering resources, and after the step S4 is completed, on one hand, the students who obtain the teaching auxiliary authority clear and reset the software teaching resources in each teaching terminal after the teaching task is completed through the AI-based data processing server; on the other hand, the teaching hardware resources obtained in the step S3 are returned to the teaching resource hardware management library, after the teaching resource hardware management library completes student identity identification and teaching hardware resource identification, the returned teaching hardware resources are reset to the designated position of the intelligent shelf of the teaching resource hardware management library, and meanwhile, the instructor returns to S3 through the teaching outline editing terminal to perform teaching outline management and updating.

Further, in the step S4, when the AI-based data processing server selects two or more teaching outlines, and teaching hardware devices and teaching software systems are applied alternately or repeatedly, the teaching hardware devices and the teaching software systems are set in turn for the teaching outlines according to teaching activity time to perform ranking, and are assigned according to the set teaching priorities.

Further, when the teaching prefabrication is performed in the step S3 and the teaching outline is managed and updated in the step S5, the hardware teaching devices and the software teaching devices in the teaching resource hardware management library and the teaching resource software management library are updated according to the teaching hardware device identification codes and the teaching software system related in the teaching outline, and the updated hardware teaching devices and software teaching devices are returned to the step S2 to allocate identification codes for the updated hardware teaching devices and software teaching devices and store the identification codes in the teaching resource hardware management library and the teaching resource software management library.

On one hand, the system has simple structure and good universality, has good online networking operation capability and good system expansion capability, greatly improves the working efficiency of allocation and management operation of various different teaching resources, and reduces the labor intensity and the cost; on the other hand, the synchronism of teaching resources and teaching activities is improved, the teaching activity developing efficiency is improved, and meanwhile, the phenomena that teaching equipment idleness rate is high and teaching resources are wasted due to the fact that the teaching resources are insufficient to influence normal teaching activity developing and the teaching resource allocation precision is insufficient are effectively prevented.

Drawings

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

FIG. 2 is a schematic diagram of a local structure of a teaching resource hardware management library;

FIG. 3 is a schematic diagram of a local system structure of a teaching resource software management library;

FIG. 4 is a schematic view of a local structure of a teaching terminal in a use state;

FIG. 5 is a schematic view of a partial structure of another use state of the teaching terminal;

FIG. 6 is a flow chart of a management method according to the present invention.

Detailed Description

As shown in fig. 1-5, an AI-based multidisciplinary teaching resource integrated management system comprises an AI-based data processing server 1, an intelligent gateway 2, a teaching resource hardware management library 3, a teaching resource software management library 4, a teaching outline editing terminal 5 and a teaching terminal 6, wherein the AI-based data processing server 1 is respectively connected with a teaching resource hardware management library 3, a teaching resource software management library 4, a teaching outline editing terminal 5 and a teaching terminal 6 through an intelligent gateway 2, the teaching outline editing terminal 5 and the teaching terminal 6 are respectively provided with a plurality of terminals, wherein, each teaching outline editing terminal 5 forms at least one teaching and research local area network 101 through the intelligent gateway 2, each teaching terminal 6 forms at least one teaching activity local area network 102 through the intelligent gateway 2, and the teaching and research local area network 101 and the teaching activity local area network 102 are connected with each other through an intelligent gateway 2.

The teaching resource hardware management library 3 comprises a storehouse 31, an access control system 32, a code printer 33, a scanner 34, an intelligent shelf 35 and a shelf robot 36, wherein the storehouse 31 is provided with at least one storehouse door 37, the storehouse door 37 is provided with the access control system 32, the code printer 33 and the scanner 34, the intelligent shelf 35 is provided with a plurality of array structures uniformly distributed in the storehouse 31, the shelf robots 35 are provided with a plurality of array structures and are all positioned in the storehouse 31, and the access control system 32, the code printer 33, the scanner 34, the intelligent shelf 35 and the shelf robot 36 are all in data connection with the intelligent gateway 2 through a communication network; the teaching resource software management library 4 comprises at least one control terminal computer 41 and a plurality of data storage servers 42, each data storage server 42 forms at least one data service local area network 43 through an intelligent network 2 gateway, and the data service local area network 43 establishes data connection with the control terminal computer 41 and the AI-based data processing server 1 through the intelligent network 2.

It is important to note that the teaching terminal 6 includes a bearing frame 61, a bearing plate 62, a control panel 63, a main display 64, an auxiliary display 65, an operation keyboard 66, a turntable mechanism 67, a linear displacement table 68, a directional speaker 69 and a control circuit 60, wherein the bearing frame 61 is a column frame structure with an axis perpendicular to the horizontal plane, an upper end surface of the bearing frame is connected to the bearing plate 62, an upper end surface of the bearing plate 62 forms an included angle of 0-60 degrees with the horizontal plane, an upper end surface of the bearing plate 62 is provided with a bearing groove 601 with a U-shaped groove-shaped structure, the control panel 63 is hinged to the upper end surface of the bearing plate 62 and forms an included angle of 0-135 degrees, an area of the control panel 63 is 1.1-1.5 times an area of the upper end surface of the bearing plate 62, the main display 64 is connected to the lower end surface of the control panel 63 and coaxially distributed, and when the included angle of the control panel 63 and the upper end surface of the bearing plate 62 is 0 degree, the main display 64 is embedded in the bearing groove 601 and coaxially distributed with the bearing plate 62, and the interval between the main display 64 and the bottom of the bearing groove 601 is 5-20 mm, at least one operation keyboard 66 is embedded in the bottom of the bearing groove 601 and forms an included angle of 0-30 degrees with the bottom of the bearing groove 601, the left side and the right side of the bearing plate 62 are respectively hinged with a linear displacement table 68 through a turntable mechanism 67, the axis of the linear displacement table 68 forms an included angle of 0-135 degrees with the upper end of the bearing plate 62, each direct displacement table 68 is slidably connected with an auxiliary display 65, the front end of the auxiliary display 65 is parallel to the axis of the linear displacement table 68, at least two directional speakers 69 are embedded in the front end of the bearing plate 62, the axis of the directional speaker 69 of the bearing plate 62 and the front end of the bearing plate 62 form an included angle of +/-45 degrees, and the control circuit 60 is embedded in the bearing frame 61 and respectively forms an included angle of +/-45 degrees with the main display 64, the auxiliary display 65, the operation keyboard 66, the main display and the operation keyboard, The turntable mechanism 67, the linear displacement table 68, the directional loudspeaker 69 and the intelligent gateway 2 are electrically connected.

Further preferably, the bearing plate 62 and the upper end face of the bearing frame 61, the lower end face of the control panel 63 and the side wall of the bearing groove 601 are connected with each other through an elastic telescopic rod 602, two ends of the elastic telescopic rod 602 are respectively hinged to the bearing plate 62, the bearing frame 61, the control panel 63 and the bearing groove 601, the elastic telescopic rod 602 is any one of at least two stages of spring telescopic rods, hydraulic telescopic rods and pneumatic telescopic rods, and an elastic cushion block 603 is arranged between the lower end face of the control panel 63 and the upper end face of the bearing plate 62.

Preferably, at least one of the main displays 64 is slidably connected to the lower end surface of the control panel 63 through a slide rail 604, the main display 64 and the auxiliary display 65 are connected in parallel and are both multi-point touch displays, a CCD camera 604 and a microphone 605 are respectively arranged on the side surfaces of the main display 64 and the auxiliary display 65, and the CCD camera 604 and the microphone 605 are both electrically connected to the control circuit 60.

In this embodiment, the teaching outline editing terminal 5 is any one or more of a personal computer and an intelligent mobile communication terminal.

As shown in fig. 6, a management method of an AI-based multidisciplinary teaching resource integrated management system includes the following steps:

s1, networking the system, firstly constructing at least one core data service platform taking an AI-based data processing server as a center, then respectively constructing at least one teaching resource hardware management library and teaching resource software management library, allocating teaching outline editing terminals for relevant staff, allocating a plurality of teaching terminals for relevant classrooms, then networking the teaching resource hardware management library, the teaching resource software management library, the teaching outline editing terminals and the teaching terminals with the AI-based data processing server through an intelligent gateway and a communication network, and allocating independent data communication addresses to complete the construction of the management system;

s2, prefabricating a system, assembling the identity identification codes of hardware teaching equipment and a software teaching system required by teaching activities through a teaching resource hardware management library and a teaching resource software management library respectively after the step S1 is completed, assembling the identity identification codes in the corresponding hardware teaching equipment and the corresponding software teaching system on the one hand, storing the hardware teaching equipment to the corresponding position of only a shelf in the hardware teaching equipment according to the assembled identity identification codes, and storing the software teaching system in an independent storage space of the teaching resource software management library; on the other hand, each identification code is stored in the AI-based data processing server, an identification code data retrieval list, a data retrieval engine subprogram, a retrieval data pointer subprogram and a data pushing control strategy are built in the AI-based data processing server, the data retrieval engine subprogram is pushed to each teaching outline editing terminal and each teaching terminal respectively, finally, staff identification is carried out on the staff of the professors through the teaching outline editing terminals, the staff identification is carried out through the teaching terminals, and the identified staff identification information and the student identification information are stored in independent areas of the AI-based data processing server for standby;

s3, prefabricating teaching, after the step S2 is completed, firstly, assembling a teaching outline according to the teaching activity requirement by a teaching staff through a teaching outline editing terminal, inputting teaching hardware equipment identity identification codes and teaching software system identity identification codes related to the teaching activity into the teaching outline according to the teaching activity requirement in the assembled teaching outline, inserting the teaching outline into the corresponding position of the teaching outline, and respectively storing the assembled teaching outlines into independent areas in an AI-based data processing server for later use, so that the teaching activity can be carried out; in the process of

S4, teaching activities are carried out, after S3 steps are completed, teaching interaction can be carried out, when the teaching activities are carried out, after identity recognition is completed by teaching staff through a teaching outline editing terminal, a corresponding teaching outline is selected from an AI-based data processing server, on one hand, the selected teaching outline is sent to a corresponding teaching terminal, and on the other hand, corresponding teaching hardware and teaching software are selected from a teaching resource hardware management library and a teaching software management library for standby according to teaching hardware equipment identity recognition codes and teaching software system identity recognition codes related in the selected teaching activities in the teaching outline; then, establishing data connection between the teaching outline editing terminal and each corresponding teaching terminal, assigning a corresponding student teaching auxiliary authority for the corresponding teaching terminal, and sending the obtained student identity identification information corresponding to the teaching auxiliary authority teaching terminal to a teaching resource hardware management library and a teaching resource software management library for standby through an AI-based data processing server; secondly, the student finishes identity recognition through a teaching terminal to prepare for learning, and meanwhile, the student who obtains the teaching auxiliary authority receives teaching hardware resources specified by the teaching outline after the student is recognized through an access control system of a teaching resource hardware management library and receives the teaching hardware resources to a teaching activity development place; on the other hand, teaching software resources specified by the teaching outline are called from the teaching resource software management library through the AI-based data processing server and are directly distributed to each teaching terminal connected with the teaching outline editing terminal for standby; finally, the teacher directly utilizes the acquired teaching hardware resources in the classroom where the teaching terminal is located and matches with teaching software resources distributed to each teaching terminal to synchronously carry out teaching activities, and the student carries out corresponding learning activities through the teaching terminal and stores data generated by the learning activities in corresponding student identity identification information positions in the AI-based data processing server;

s5, recovering resources, and after the step S4 is completed, on one hand, the students who obtain the teaching auxiliary authority clear and reset the software teaching resources in each teaching terminal after the teaching task is completed through the AI-based data processing server; on the other hand, the teaching hardware resources obtained in the step S3 are returned to the teaching resource hardware management library, after the teaching resource hardware management library completes student identity identification and teaching hardware resource identification, the returned teaching hardware resources are reset to the designated position of the intelligent shelf of the teaching resource hardware management library, and meanwhile, the instructor returns to S3 through the teaching outline editing terminal to perform teaching outline management and updating.

In step S4, when the AI-based data processing server selects two or more teaching outlines, and teaching hardware devices and teaching software systems are applied alternately or repeatedly, the teaching hardware devices and the teaching software systems are sequentially set for the teaching outlines according to teaching activity time to develop teaching priority for sorting, and are assigned according to the set teaching priority.

Meanwhile, when the teaching prefabrication is performed in the step S3 and the teaching outline is managed and updated in the step S5, the hardware teaching equipment and the software teaching equipment in the teaching resource hardware management library and the teaching resource software management library are updated according to the teaching hardware equipment identification codes and the teaching software system related in the teaching outline, and the updated hardware teaching equipment and software teaching equipment are returned to the step S2 to distribute the identification codes for the updated hardware teaching equipment and software teaching equipment and are stored in the teaching resource hardware management library and the teaching resource software management library.

On one hand, the system has simple structure and good universality, has good online networking operation capability and good system expansion capability, greatly improves the working efficiency of allocation and management operation of various different teaching resources, and reduces the labor intensity and the cost; on the other hand, the synchronism of teaching resources and teaching activities is improved, the teaching activity developing efficiency is improved, and meanwhile, the phenomena that teaching equipment idleness rate is high and teaching resources are wasted due to the fact that the teaching resources are insufficient to influence normal teaching activity developing and the teaching resource allocation precision is insufficient are effectively prevented.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A management method based on an AI-based multidisciplinary teaching resource comprehensive management system is characterized by comprising the following steps: the management method of the AI-based multidisciplinary teaching resource comprehensive management system comprises the following steps:

s1, networking the system, firstly constructing at least one core data service platform taking an AI-based data processing server as a center, then respectively constructing at least one teaching resource hardware management library and teaching resource software management library, allocating teaching outline editing terminals for relevant staff, allocating a plurality of teaching terminals for relevant classrooms, then networking the teaching resource hardware management library, the teaching resource software management library, the teaching outline editing terminals and the teaching terminals with the AI-based data processing server through an intelligent gateway and a communication network, and allocating independent data communication addresses to complete the construction of the management system;

s2, prefabricating a system, assembling the identity identification codes of hardware teaching equipment and a software teaching system required by teaching activities through a teaching resource hardware management library and a teaching resource software management library in a unified manner, assembling the identity identification codes in the corresponding hardware teaching equipment and software teaching system on the one hand, storing the hardware teaching equipment to the corresponding position of only a shelf in the hardware teaching equipment according to the assembled identity identification codes, and storing the software teaching system in an independent storage space of the teaching resource software management library after the step S1 is completed; on the other hand, each identification code is stored in the AI-based data processing server, an identification code data retrieval list, a data retrieval engine subprogram, a retrieval data pointer subprogram and a data pushing control strategy are built in the AI-based data processing server, the data retrieval engine subprogram is pushed to each teaching outline editing terminal and each teaching terminal respectively, finally, staff identification is carried out on the staff of the professors through the teaching outline editing terminals, the staff identification is carried out through the teaching terminals, and the identified staff identification information and the student identification information are stored in independent areas of the AI-based data processing server for standby;

s3, prefabricating teaching, after the step S2 is completed, firstly, assembling a teaching outline according to the teaching activity requirement by a teaching staff through a teaching outline editing terminal, inputting teaching hardware equipment identity identification codes and teaching software system identity identification codes related to the teaching activity into the teaching outline according to the teaching activity requirement in the assembled teaching outline, inserting the teaching outline into the corresponding position of the teaching outline, and respectively storing the assembled teaching outlines into independent areas in an AI-based data processing server for later use, so that the teaching activity can be carried out; in the process of

S4, teaching activities are carried out, after S3 steps are completed, teaching interaction can be carried out, when the teaching activities are carried out, after identity recognition is completed by teaching staff through a teaching outline editing terminal, a corresponding teaching outline is selected from an AI-based data processing server, on one hand, the selected teaching outline is sent to a corresponding teaching terminal, and on the other hand, corresponding teaching hardware and teaching software are selected from a teaching resource hardware management library and a teaching software management library for standby according to teaching hardware equipment identity recognition codes and teaching software system identity recognition codes related in the selected teaching activities in the teaching outline; then, establishing data connection between the teaching outline editing terminal and each corresponding teaching terminal, assigning a corresponding student teaching auxiliary authority for the corresponding teaching terminal, and sending the obtained student identity identification information corresponding to the teaching auxiliary authority teaching terminal to a teaching resource hardware management library and a teaching resource software management library for standby through an AI-based data processing server; secondly, the student finishes identity recognition through a teaching terminal to prepare for learning, and meanwhile, the student who obtains the teaching auxiliary authority receives teaching hardware resources specified by the teaching outline after the student is recognized through an access control system of a teaching resource hardware management library and receives the teaching hardware resources to a teaching activity development place; on the other hand, teaching software resources specified by the teaching outline are called from the teaching resource software management library through the AI-based data processing server and are directly distributed to each teaching terminal connected with the teaching outline editing terminal for standby; finally, the teacher directly utilizes the acquired teaching hardware resources in the classroom where the teaching terminal is located and matches with teaching software resources distributed to each teaching terminal to synchronously carry out teaching activities, and the student carries out corresponding learning activities through the teaching terminal and stores data generated by the learning activities in corresponding student identity identification information positions in the AI-based data processing server;

s5, recovering resources, and after the step S4 is completed, on one hand, the students who obtain the teaching auxiliary authority clear and reset the software teaching resources in each teaching terminal after the teaching task is completed through the AI-based data processing server; on the other hand, the teaching hardware resources obtained in the step S3 are returned to the teaching resource hardware management library, after the teaching resource hardware management library completes student identity identification and teaching hardware resource identification, the returned teaching hardware resources are reset to the designated position of the intelligent shelf of the teaching resource hardware management library, and meanwhile, the instructor returns to S3 through the teaching outline editing terminal to perform teaching outline management and updating.

2. The management method of the AI-based multidisciplinary teaching resource integrated management system according to claim 1, wherein: teaching resource hardware management storehouse include storehouse, access control system, code printer, scanner, intelligent goods shelves, goods shelves robot, wherein at least one storehouse door is established to the storehouse, entrance control system, code printer and a scanner are established to storehouse door department, intelligent goods shelves are a plurality of, are array structure equipartition in the storehouse, and goods shelves robot is a plurality of and all is located the storehouse, access control system, code printer, scanner, intelligent goods shelves, goods shelves robot all with intelligent gateway within a definite time through communication network establish data connection.

3. The management method of the AI-based multidisciplinary teaching resource integrated management system according to claim 1, wherein: the teaching resource software management library comprises at least one control terminal computer and a plurality of data storage servers, each data storage server forms at least one data service local area network through an intelligent gateway, and the data service local area networks are respectively in data connection with the control terminal computer and an AI-based data processing server through the intelligent gateway.

4. The management method of the AI-based multidisciplinary teaching resource integrated management system according to claim 1, wherein: the teaching terminal comprises a bearing frame, a bearing plate, an operation panel, a main display, an auxiliary display, an operation keyboard, a rotary table mechanism, a linear displacement table, a directional loudspeaker and a control circuit, wherein the bearing frame is of a column frame structure with an axis vertical to a horizontal plane, the upper end surface of the bearing plate is connected with the bearing plate, an included angle between the upper end surface of the bearing plate and the horizontal plane is 0-60 degrees, a bearing groove of a U-shaped groove-shaped structure is arranged on the upper end surface of the bearing plate, the operation panel is hinged with the upper end surface of the bearing plate and forms an included angle between 0 degree and 135 degrees, the area of the operation panel is 1.1-1.5 times of that of the upper end surface of the bearing plate, the main display is connected with the lower end surface of the operation panel and is coaxially distributed, when the included angle between the operation panel and the upper end surface of the bearing plate is 0 degree, the main display is embedded in the bearing groove and coaxially distributed with the bearing plate, and the distance between the main display and the bottom of the bearing groove is 5-20 mm, the operation keyboard is at least one, inlay in bearing tank bottom and be 0-30 contained angle with bearing tank bottom, bearing plate left surface and right flank are articulated with a linear displacement platform through revolving stage mechanism respectively, linear displacement platform axis is 0-135 contained angle with the loading board upper end, and every direct displacement platform all with an auxiliary display sliding connection, just auxiliary display front end face and linear displacement platform axis parallel distribution, directional loudspeaker are at least two, inlay in loading board front end face and loading board directional loudspeaker axis and loading board front end face be 45 contained angles, control circuit inlays in bearing the frame to respectively with main display, auxiliary display, operation keyboard, revolving stage mechanism, linear displacement platform, directional loudspeaker and intelligent gateway electrical connection.

5. The management method of the AI-based multidisciplinary teaching resource integrated management system as claimed in claim 4, wherein: the bearing plate and the upper end face of the bearing frame as well as the lower end face of the control panel and the side wall of the bearing groove are connected with each other through an elastic telescopic rod, two ends of the elastic telescopic rod are respectively hinged with the bearing plate, the bearing frame, the control panel and the bearing groove, the elastic telescopic rod is any one of at least two stages of spring telescopic rods, hydraulic telescopic rods and pneumatic telescopic rods, and an elastic cushion block is arranged between the lower end face of the control panel and the upper end face of the bearing plate.

6. The management method of the AI-based multidisciplinary teaching resource integrated management system as claimed in claim 4, wherein: at least one main display, through slide rail and control panel lower extreme face sliding connection, main display, auxiliary display connect in parallel each other to be the multiple spot touch-control display, a CCD camera and a microphone are all established in addition on main display, the auxiliary display side surface, CCD camera and a microphone all with control circuit electrical connection.

7. The management method of the AI-based multidisciplinary teaching resource integrated management system according to claim 1, wherein: the teaching outline editing terminal is any one or more of a personal computer and an intelligent mobile communication terminal.

8. The management method of the AI-based multidisciplinary teaching resource integrated management system according to claim 1, wherein: in the step S4, when the AI-based data processing server selects two or more teaching outlines, and teaching hardware devices and teaching software systems are applied alternately and repeatedly, the AI-based data processing server sets and ranks teaching hardware devices and teaching software systems in accordance with teaching activity time, and assigns teaching hardware devices and teaching software systems in accordance with set teaching priorities.

9. The management method of the AI-based multidisciplinary teaching resource integrated management system according to claim 1, wherein: when the teaching prefabrication is carried out in the step S3 and the teaching outline is managed and updated in the step S5, the hardware teaching equipment and the software teaching equipment in the teaching resource hardware management library and the teaching resource software management library are updated according to the teaching hardware equipment identification codes and the teaching software system related in the teaching outline, and the updated hardware teaching equipment and software teaching equipment are returned to the step S2 to distribute the identification codes for the updated hardware teaching equipment and software teaching equipment and are stored in the teaching resource hardware management library and the teaching resource software management library.

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