阅读说明：本技术 一种分布式教学系统 (Distributed teaching system ) 是由 李志雄 于 2021-09-24 设计创作，主要内容包括：本发明提出了一种分布式教学系统,为教学端和学生端分别建立第一教学模块和第一学习模块,并通过系统中心的环状教学岛执行教学数据的处理分析,独创性地引入了邀请学生模块,实现尤佳的全方位综合分布式教学效果,同时基于分布式系统模块设计,提升分布式教学系统的系统控制功能性,确保了辅助教学模块的教学质量比对,提供多元化的教学信息来源,较之现有技术较佳的提升了远程分布式教学的教学效果。(The invention provides a distributed teaching system, which is characterized in that a first teaching module and a first learning module are respectively established for a teaching end and a student end, the processing and analysis of teaching data are executed through an annular teaching island in a system center, an invitation student module is creatively introduced, the excellent comprehensive distributed teaching effect is realized, meanwhile, the system control functionality of the distributed teaching system is improved based on the design of distributed system modules, the teaching quality comparison of an auxiliary teaching module is ensured, diversified teaching information sources are provided, and the teaching effect of remote distributed teaching is better improved compared with the prior art.)

1. A distributed tutorial system, the system comprising:

the first teaching module is at least connected with a teacher end, receives teacher end operation data, and sends the teacher end operation data to the annular teaching island of the distributed teaching system for the annular teaching island of the distributed teaching system to execute further processing;

the teacher-side operation data is operation record data generated by a teacher giving teaching in the distributed teaching system executing teaching operation at the teacher side of the distributed teaching system;

an annular teaching island, the annular teaching island at least comprising:

the system comprises an invitation instruction place homing module, a student invitation module and a student invitation module, wherein the invitation instruction place homing module is used for determining and storing system weight information of each student invitation module;

wherein, the system weight information of each group of the inviting student module at least comprises:

inviting student module ID, system weight information value;

the ID of the student inviting module is preset in each student inviting module of the distributed teaching system by the system and is sent to the annular teaching island of the distributed teaching system to execute local storage in the system initialization stage;

the system comprises a plurality of on-hearing teachers, a plurality of monitoring terminals and a plurality of monitoring terminals, wherein each on-hearing teacher is used for monitoring operation record data, selecting a specific operation record data segment as unnecessary teaching content, executing interception of the operation record data and generating an intercepted blank time period; the plurality of the on-hearing teachers send the intercepted blank time periods and the relevant information thereof to the teaching film recording module and the on-hearing teachers operation statistics device;

the distributed teaching system also comprises an on-hearing agent operation counter, which is used for storing an on-hearing agent operation threshold value and executing filing position determination based on the on-hearing agent operation threshold value;

the teaching film recording module is used for receiving blank time periods to be intercepted by a plurality of on-hearing agents and relevant information thereof, storing the blank time periods to the local and using the blank time periods for system rollback operation;

the first inserting module is used for acquiring the filing position from the annular teaching island, notifying each of a plurality of inviting student modules, generating second operation record data inserted into the filing position based on original operation record data, and sending the original operation record data, the second operation record data and the filing position to the plurality of inviting student modules;

the second operation record data sets the data of each filing position of the original operation record data to zero;

each inviting student module is used for acquiring the original operation record data, the second operation record data and the filing position from the first inserting module and making filing inserting data of each filing position of the original operation record data; the plurality of student inviting modules are also used for sending the filing insertion data of each filing position, the corresponding duration and position information thereof and the corresponding filing position ID to the invitation instruction seat competition module; the filing position ID is provided with specific ID information after being established;

the system comprises an invitation instruction seat competition module, an invitation instruction seat competition module and a plurality of invitation student modules, wherein the invitation instruction seat competition module is used for determining and storing system weight information of each invitation student module, and determining contention results of the invitation student modules based on the filing insertion data of each filing position of the plurality of invitation student modules, corresponding duration and position information of the plurality of invitation student modules and corresponding filing position IDs (identities);

the contention result of the inviting student module is used for representing that when the inviting student filing conflict occurs, the ID of the inviting student module of the corresponding filing position can be monopolized and locked;

the invitation instruction seat competition module is further used for acquiring filing insertion data corresponding to each filing position based on the determined competition result of the invitation student module, inserting the filing insertion data into the corresponding position of the second operation record data, and combining the filing insertion data into third operation record data;

and the annular teaching island is also used for sending third operation record data to the student end for the student end of the distributed teaching system to execute teaching course learning.

2. The distributed teaching system of claim 1 wherein the operation record data generated by the teacher of the distributed teaching system performing teaching operations at the teacher end of the distributed teaching system is specifically:

recording teaching audio with specific duration;

or the like, or, alternatively,

recording teaching video with specific duration;

or the like, or, alternatively,

a combination of the above two kinds of recorded data for a certain length of time.

3. The distributed instruction system of claim 1 further comprising an audiometric fixed module that can replace any one of the audiometric, or act as a supplemental audiometric, wherein:

and based on the intercepted blank time interval generated by the interception of the audition agent fixing module, ignoring the audition agent operation threshold value stored by the audition agent operation counter, directly regarding the audition agent operation threshold value as a filing position, and executing subsequent operation.

4. The distributed tutorial system of claim 1, wherein:

the system weight information is divided into a plurality of levels.

5. The distributed tutorial system of claim 1, wherein:

the filing locations have a particular minimum duration granularity, and the duration of each filing location may only be an integer multiple of the particular minimum duration granularity.

6. The distributed tutorial system of claim 1, wherein: the minimum duration granularity is 10S.

7. The distributed tutorial system of claim 1, wherein: the filing insertion data specifically comprises:

recording teaching audio with specific duration;

or the like, or, alternatively,

recording teaching video with specific duration;

or the like, or, alternatively,

a combination of the above two kinds of recorded data for a certain length of time.

8. The distributed tutorial system of claim 1, wherein: the distributed teaching system further comprises a first learning module, wherein the first learning module is connected to the student terminal and provides third operation record data for the student terminal.

9. The distributed tutorial system of claim 8, wherein: the distributed teaching system further comprises an invitation student position missing module, the invitation student position missing module only comprises an enabling state and a de-enabling state, and when the invitation student position missing module is in the enabling state, the distributed teaching system directly provides original operation record data for the student end.

10. The distributed tutorial system of claim 1, wherein:

and information transmission is performed among all modules of the distributed teaching system based on a 5G communication technology, a WIFI communication technology or an NFC communication technology.

Technical Field

The invention belongs to the field of distributed education, and particularly relates to a distributed teaching system.

Background

As a part of a smart city, the smart education has an increasingly wide application range in modern teaching, very various application scenes and witnessed teaching benefits.

Distributed teaching system has practiced the remote teaching mode about wisdom education as the important component part of wisdom education, has satisfied under partial school and the teaching scene, and the not enough of face-to-face teaching has promoted the comprehensive cooperation degree of whole teaching simultaneously, provides richer and vivid teaching experience for the student.

A distributed system is a system of computer nodes that communicate over a network and that work in concert to accomplish a common task. Distributed systems have emerged to perform computing and storage tasks that cannot be performed by a single computer using inexpensive, common machines. The purpose is to process more data with more machines. Firstly, it is clear that a distributed system needs to be considered only when the processing capacity of a single node cannot meet the increasing computing and storage tasks and the hardware promotion (memory, disk, better CPU) is too expensive and the application program cannot be further optimized. The problems to be solved by the distributed system are the same as those of a stand-alone system, and due to the multi-node topology structure of the distributed system, which communicates through a network, many problems which are not existed in the stand-alone system are introduced, and more mechanisms and protocols are introduced to solve the problems, so that more problems are brought. Distributed systems are divided into distributed computing (computation) and distributed storage (storage). Computation and storage are complementary, computation requiring data, either from real-time data (streaming data) or from stored data; and the results of the calculations need to be stored. Distributed systems require a large number of machines to cooperate, posing a number of challenges: first, heterogeneous machines and networks: the machines in the distributed system are configured differently, and the services running on the machines can be realized by different languages and architectures, so the processing capacity is different; the nodes are connected through a network, and the bandwidth, the time delay and the packet loss rate of the network provided by different network operators are different. How to guarantee that all people go ahead and together achieve the goal, four challenges are not small. Second, a generalized node failure: although the failure probability of a single node is low, the probability of failure becomes high when the number of nodes reaches a certain scale. When a distributed system needs to ensure that a fault occurs, the system is still available, which needs to monitor the state of a node, and transfer the calculation and storage tasks responsible for the node to other nodes in case of the fault of the node, namely a third unreliable network: the nodes communicate with each other via a network, which is unreliable. Possible network problems include: network segmentation, delay, packet loss, and disorder.

Wisdom schools are yet another technology plateau for distributed system applications. Wisdom school may also be referred to as wisdom campus, wisdom classroom, or wisdom classroom. The academic community has achieved a basic consensus on the concept of "smart classrooms". The consensus is that the intelligent classroom is a teaching environment which utilizes technologies such as artificial intelligence and human-computer interaction to enhance teaching content presentation and perception of the whole teaching environment, communication technologies such as the Internet of things and the Internet are utilized to optimize communication between teachers and students, and development of personalized teaching activities is promoted. The beginning of the teaching environment in China historically began in summer, and was called "itch" at that time, which is the germinating form in the classroom. The word "itch" is composed of a word "guan" and a word "yang", which means related to houses and is an educational place. After private study such as shudi, college and the like, officials such as taizhou, national prison and the like, the teaching environment for class teaching at the end of the 16 th century becomes a classroom in the real modern meaning, and is the source of the evolution of the modern teaching environment. The overall view is from the classroom standard of blackboard, podium, table chair to the electronic classroom that has electronic audio and video equipment, to the multimedia classroom that equips equipment such as TV, projecting apparatus, slide show, blank, to the current "wisdom classroom" that relies on cloud computing, internet, thing networking, intelligent interaction technique, it can be said that the innovation of teaching environment provides increasingly advanced environmental support for education and teaching, "wisdom classroom" has promoted the transformation of classroom form from the technical principal as advanced teaching environment. The construction of a 'smart classroom' is to construct a teaching environment based on the current high and new technology, the novel teaching environment is still a basic support in essence, exists as an object, and does not have the subjective initiative of promoting the change of a teaching mode.

Compared with the traditional ideological and political administration classroom, the ideological and political administration class intelligent classroom driven by artificial intelligence is a new intelligent teaching ecology integrating software, hardware and intelligent facilities and technologies, aims to realize the intelligent energization of ideological and political administration class teaching environment by means of modern information technology such as big data technology, virtual reality technology (VR), augmented reality technology (AR) and mixed reality technology (MR), creates a new mode of 'AI + ideological and political administration classroom', scientifically identifies student characteristics, generally allocates teachers, accurately customizes classroom contents, intelligently optimizes classroom teaching, and accurately evaluates classroom effects, the teacher-student interaction, student-student interaction, man-machine interaction and interpersonal interaction enhance deep learning and immersive experience of students on thinking administration course teaching, the conversion of an education process from one-to-many to many-to-one and one-to-one is realized, and the guidance, affinity and pertinence of thinking administration course nurses are improved.

The traditional distributed teaching system has the advantages that the system composition is more templatized, the multi-level synergistic effect among different roles is not reasonably considered, and meanwhile, the feedback and integration of the teaching effect are lacked.

The invention provides a distributed teaching system, which is characterized in that a first teaching module and a first learning module are respectively established for a teaching end and a student end through a distributed system architecture, and the relay processing and analysis processing of teaching audio and video data are executed through an annular teaching island in a system center; secondly, the inviting student module is originally introduced, and based on the consideration of the teaching effect, the auxiliary teaching based on the comparison and selection of the inviting student module is executed on a specific teaching data intercepting part, so that the excellent comprehensive and distributed teaching effect is realized. Thirdly, through the operation statistics of introducing the on-hearing instruction position, the teaching data of on-hearing instruction position is cut and is provided with specific processing threshold value to follow the system level and carried out the restriction to the processing of teaching data, promote distributed teaching system's system control functionality. Fourthly, through the competition post-putting mechanism of the invitation instruction place, the auxiliary teaching quality comparison of the specific invitation student module is ensured, and the diversified teaching information sources are better compared with the teaching effect of remote distributed teaching.

Disclosure of Invention

The present invention aims to provide a distributed tutorial system which is superior to the prior art.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a distributed tutorial system, the system comprising:

the first teaching module is at least connected with a teacher end, receives teacher end operation data, and sends the teacher end operation data to the annular teaching island of the distributed teaching system for the annular teaching island of the distributed teaching system to execute further processing;

the teacher-side operation data is operation record data generated by a teacher giving teaching in the distributed teaching system executing teaching operation at the teacher side of the distributed teaching system;

an annular teaching island, the annular teaching island at least comprising:

the system comprises an invitation instruction place homing module, a student invitation module and a student invitation module, wherein the invitation instruction place homing module is used for determining and storing system weight information of each student invitation module;

wherein, the system weight information of each group of the inviting student module at least comprises:

inviting student module ID, system weight information value;

the ID of the student inviting module is preset in each student inviting module of the distributed teaching system by the system and is sent to the annular teaching island of the distributed teaching system to execute local storage in the system initialization stage;

the system comprises a plurality of on-hearing teachers, a plurality of monitoring terminals and a plurality of monitoring terminals, wherein each on-hearing teacher is used for monitoring operation record data, selecting a specific operation record data segment as unnecessary teaching content, executing interception of the operation record data and generating an intercepted blank time period; the plurality of the on-hearing teachers send the intercepted blank time periods and the relevant information thereof to the teaching film recording module and the on-hearing teachers operation statistics device;

the distributed teaching system also comprises an on-hearing agent operation counter, which is used for storing an on-hearing agent operation threshold value and executing filing position determination based on the on-hearing agent operation threshold value;

the teaching film recording module is used for receiving blank time periods to be intercepted by a plurality of on-hearing agents and relevant information thereof, storing the blank time periods to the local and using the blank time periods for system rollback operation;

the first inserting module is used for acquiring the filing position from the annular teaching island, notifying each of a plurality of inviting student modules, generating second operation record data inserted into the filing position based on original operation record data, and sending the original operation record data, the second operation record data and the filing position to the plurality of inviting student modules;

the second operation record data sets the data of each filing position of the original operation record data to zero;

each inviting student module is used for acquiring the original operation record data, the second operation record data and the filing position from the first inserting module and making filing inserting data of each filing position of the original operation record data; the plurality of student inviting modules are also used for sending the filing insertion data of each filing position, the corresponding duration and position information thereof and the corresponding filing position ID to the invitation instruction seat competition module; the filing position ID is provided with specific ID information after being established;

the system comprises an invitation instruction seat competition module, an invitation instruction seat competition module and a plurality of invitation student modules, wherein the invitation instruction seat competition module is used for determining and storing system weight information of each invitation student module, and determining contention results of the invitation student modules based on the filing insertion data of each filing position of the plurality of invitation student modules, corresponding duration and position information of the plurality of invitation student modules and corresponding filing position IDs (identities);

the contention result of the inviting student module is used for representing that when the inviting student filing conflict occurs, the ID of the inviting student module of the corresponding filing position can be monopolized and locked;

the invitation instruction seat competition module is further used for acquiring filing insertion data corresponding to each filing position based on the determined competition result of the invitation student module, inserting the filing insertion data into the corresponding position of the second operation record data, and combining the filing insertion data into third operation record data;

and the annular teaching island is also used for sending third operation record data to the student end for the student end of the distributed teaching system to execute teaching course learning.

Preferably, the operation record data generated when the teaching teacher of the distributed teaching system executes the teaching operation at the teacher end of the distributed teaching system is specifically:

recording teaching audio with specific duration;

or the like, or, alternatively,

recording teaching video with specific duration;

or the like, or, alternatively,

a combination of the above two kinds of recorded data for a certain length of time.

Preferably, the distributed teaching system further includes an audiometric fixed module, and the audiometric fixed module can replace any audiometric or be used as a supplementary audiometric, characterized in that:

and based on the intercepted blank time interval generated by the interception of the audition agent fixing module, ignoring the audition agent operation threshold value stored by the audition agent operation counter, directly regarding the audition agent operation threshold value as a filing position, and executing subsequent operation.

Preferably, the system weight information is divided into a plurality of levels.

Preferably, the filing locations have a specified minimum duration granularity, and the duration of each filing location may be only an integer multiple of the specified minimum duration granularity.

Preferably, the minimum duration granularity is 10S.

Preferably, the profiling insertion data is specifically:

recording teaching audio with specific duration;

or the like, or, alternatively,

recording teaching video with specific duration;

or the like, or, alternatively,

a combination of the above two kinds of recorded data for a certain length of time.

Preferably, the distributed teaching system further comprises a first learning module, wherein the first learning module is connected to the student terminal and provides third operation record data for the student terminal.

Preferably, the distributed teaching system further comprises an invitation student vacancy module, the invitation student vacancy module only comprises two system setting states of enabling and disabling, and when the invitation student vacancy module is in the enabling state, the distributed teaching system directly provides the original operation record data to the student terminal.

Preferably, the information transmission is performed among the modules of the distributed teaching system based on a 5G communication technology, a WIFI communication technology or an NFC communication technology.

The invention provides a distributed teaching system, which is characterized in that a first teaching module and a first learning module are respectively established for a teaching end and a student end through a distributed system architecture, and the relay processing and analysis processing of teaching audio and video data are executed through an annular teaching island in a system center; secondly, the inviting student module is originally introduced, and based on the consideration of the teaching effect, the auxiliary teaching based on the comparison and selection of the inviting student module is executed on a specific teaching data intercepting part, so that the excellent comprehensive and distributed teaching effect is realized. Thirdly, through the operation statistics of introducing the on-hearing instruction position, the teaching data of on-hearing instruction position is cut and is provided with specific processing threshold value to follow the system level and carried out the restriction to the processing of teaching data, promote distributed teaching system's system control functionality. Fourthly, through the competition post-putting mechanism of the invitation instruction place, the auxiliary teaching quality comparison of the specific invitation student module is ensured, and the diversified teaching information sources are better compared with the teaching effect of remote distributed teaching.

Drawings

FIG. 1 is a basic system architecture diagram of a distributed tutorial system of the present invention;

FIG. 2 is a schematic diagram of a preferred embodiment of a distributed teaching system in which a first teaching module is interconnected with a teacher end;

FIG. 3 is a diagram of a basic system architecture of a distributed tutorial system of the present invention;

FIG. 4 is a preferred embodiment of a distributed teaching system annular teaching island shown in the present invention;

fig. 5 is a schematic diagram of a preferred display embodiment of the student vacancy module shown in the invention.

Detailed Description

The following detailed description is based on several embodiments and advantageous effects of a distributed teaching system and method as claimed in the present invention to facilitate a more detailed examination and decomposition of the present invention.

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be understood that although the terms first, second, etc. may be used in embodiments of the invention to describe methods and corresponding apparatus, these keywords should not be limited to these terms. These terms are only used to distinguish keywords from each other. For example, a first tutorial module, a first plug-in module, etc. may also be referred to as a second tutorial module, a second plug-in module, and similarly, a second tutorial module, a second plug-in module, etc. may also be referred to as a first tutorial module, a first plug-in module, without departing from the scope of embodiments of the present invention.

The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination" or "in response to a detection", depending on the context. Similarly, the phrases "if determined" or "if detected (a stated condition or event)" may be interpreted as "when determined" or "in response to a determination" or "when detected (a stated condition or event)" or "in response to a detection (a stated condition or event)", depending on the context.

As shown in the accompanying drawings 1 and 2 of the specification, the distributed teaching system and one embodiment of the specific embedded module thereof claimed by the present invention, the system includes:

the first teaching module is at least connected with a teacher end, receives teacher end operation data, and sends the teacher end operation data to the annular teaching island of the distributed teaching system for the annular teaching island of the distributed teaching system to execute further processing;

the teacher-side operation data is operation record data generated by a teacher giving teaching in the distributed teaching system executing teaching operation at the teacher side of the distributed teaching system;

an annular teaching island, the annular teaching island at least comprising:

the system comprises an invitation instruction place homing module, a student invitation module and a student invitation module, wherein the invitation instruction place homing module is used for determining and storing system weight information of each student invitation module;

as another stackable preferred embodiment, the invitation agent homing module is configured to determine and store system weight information of each invitation student module, and specifically may be: the invitation teaching agent homing module initializes and records system weight information of each invitation student module preset by a system, and executes record updating when the system weight information of each invitation student module changes. The initial system weight information of each invitation student module can be preset for the system and can exist in a hierarchical form. As another superimposable preferred embodiment, the levels may be set to be ordered from large to small according to the value size of the weight information, and level layering may be performed, in a level of a specific level, including sub-levels of the specific level. And, compare the weight information of the same level according to size first, if the weight information of the same level is the same, then compare the level size of the sub-level, and so on, as another preferred embodiment that can be superimposed, the sub-level can use the short vertical line or other forms to record on the right side of the upper level. For example, for a specific filing position, when N inviting student modules corresponding to the system all perform the filing and inserting data operation for the filing position (N is 4), the system Weight information ID of the 1 st inviting student module may be recorded as Weight1, and the system preset initial value thereof is recorded as 2-1; recording the system Weight information ID of the No. 2 inviting student module as Weight2, and recording the system preset initial value as 3-2; recording the system Weight information ID of the 3 rd invitation student module as Weight3, and recording the system preset initial value as 3-1; recording the system Weight information ID of the No. 2 inviting student module as Weight4, and recording the system preset initial value as 1-2; then: the invitation instruction place-setting module determines and stores the system weight information of each invitation student module as follows: invitation student module ID 1: weight 1: 2-1; invitation student module ID: weight 2: 3-2; invite student module ID: weight 3: 3-1; invite student module ID: weight 4: 1-2. Of course, the saving may be in the form of a data table, or in any form that is perceptible and storable as an electronic and/or physical document. As another superimposable preferred embodiment, the change of the system weight information of each inviting student module may be a system weight information update entry of each inviting student module implemented by a system administrator, or a system dynamic adjustment of the system weight information of each inviting student module.

Wherein, the system weight information of each group of the inviting student module at least comprises:

inviting student module ID, system weight information value;

the ID of the student inviting module is preset in each student inviting module of the distributed teaching system by the system and is sent to the annular teaching island of the distributed teaching system to execute local storage in the system initialization stage;

the system comprises a plurality of on-hearing teachers, a plurality of monitoring terminals and a plurality of monitoring terminals, wherein each on-hearing teacher is used for monitoring operation record data, selecting a specific operation record data segment as unnecessary teaching content, executing interception of the operation record data and generating an intercepted blank time period; the plurality of the on-hearing teachers send the intercepted blank time periods and the relevant information thereof to the teaching film recording module and the on-hearing teachers operation statistics device;

generally speaking, the on-hearing agent administrator is a teacher with a specific teaching experience or a teaching type operator, the agent administrator corresponds to a specific on-hearing agent, and determines, based on received operation record data generated by the teacher end executing teaching operation, which parts of the teaching content in the operation record data are teaching content with information amount smaller than a specific threshold, or teaching content with insufficient association with core teaching content, or other types of non-important teaching content considered by the on-hearing agent administrator, or teaching content without actual association with teaching outline, and the like, based on a specific minimum duration granularity.

As another preferred embodiment that can be superimposed, each of the plurality of audiologist agents is configured to listen to the operation record data, select a specific operation record data segment, and perform interception of the operation record data as unnecessary teaching content, where the interception includes at least: the method comprises the steps that a plurality of on-hearing teachers execute operation record data segment interception of integral multiple of specific minimum duration granularity based on specific minimum duration granularity, intercept unnecessary teaching contents identified by the on-hearing teachers from operation record data, reserve intercepted blank time intervals in the operation record data, record the intercepted blank time interval ID and positioning data of the intercepted blank time intervals ID and additionally store the on-hearing teachers ID. And the plurality of the on-hearing teachers send the intercepted blank time periods and the relevant information thereof to a teaching film recording module and an on-hearing teachers operation statistic device. Obviously, the blanking periods are integer multiples of a particular minimum duration granularity. The determination of the on-board listening agents on the unnecessary teaching contents can be performed based on the quality statistical analysis and numerical quantification of the course teaching contents by each on-board listening agent manager based on a specific teaching analysis model, or can be determined based on whether the specific minimum duration granularity contains the core teaching contents calibrated by the system, or can be determined based on experience judgment of each on-board listening agent manager. The related contents are not the focus of the present invention, nor the main direction of the present invention to perform technical improvement and creative breakthrough on the prior art, and there are various implementation methods and specific implementation examples of the related teaching quality quantitative analysis model in the prior art, and those skilled in the art can perform quantitative analysis on the video/audio teaching records according to the related teaching quality quantitative analysis model disclosed in the prior art and implement unnecessary determination and division on the teaching operation record data based on a specific threshold, and the contents of the main direction of the non-present invention to perform technical improvement and creative breakthrough on the prior art may appear in the related applications and related applications, and the present invention is not described again.

The distributed teaching system also comprises an on-hearing agent operation statistics device which is used for storing an on-hearing agent operation threshold value and determining a filing position based on the on-hearing agent operation threshold value;

as another stackable preferred embodiment, after the filing position is established, the filing position has specific ID information, namely a filing position ID, and as another stackable preferred embodiment, the on-hearing agent operation record, the duration and other information are added; the onhearing instruction operation records are used for recording the gear-building position determined by several onhearing instructions as the gear-building position and which onhearing instructions determine the gear-building position.

As another preferred embodiment, which can be superimposed, the profiling locations have a certain minimum duration granularity, for example 10S. The duration of each profiling location may only be an integer multiple of the particular minimum duration granularity.

As another stackable preferred embodiment, the audiologist operation counter is configured to store an audiologist operation threshold, and perform profiling position determination based on the audiologist operation threshold, specifically: in the onhearing agent operation statistics device, an onhearing agent operation threshold value is preset and stored by a system, the onhearing agent operation threshold value is used for representing a lowest onhearing agent judgment threshold value for determining the filing position, and the lowest onhearing agent judgment threshold value for determining the filing position is used in the following steps: the on-hearing agent operation statistics device firstly obtains intercepted blank time periods of each on-hearing agent, wherein positioning data of the intercepted blank time periods are added, an ID of the on-hearing agent is additionally stored, the on-hearing agent operation statistics device compares the intercepted blank time periods sent by each on-hearing agent, the same blank time periods (with specific minimum time length as granularity) in the intercepted blank time periods sent by each on-hearing agent are searched, and the times and values of the same blank time periods appearing in the intercepted blank time periods sent by different on-hearing agents are found. That is, for example, for a specific blanking period ID, if the intercepted blanking period transmitted by the overhearing agent 1, the intercepted blanking period transmitted by the overhearing agent 2, and the intercepted blanking period transmitted by the overhearing agent 4 are all described, the number of times and the value thereof are 3. And continuously, the agent operation counter compares the times and the values with an on-hearing agent operation threshold, and when the times and the values are more than or equal to the on-hearing agent operation threshold, the positioning data of the intercepted blank time interval ID, namely the positioning data of the intercepted blank time interval ID is established as a filing position at the corresponding position (taking the specific minimum duration as the granularity) of the original operation record data, and the filing position ID is set. As another preferable embodiment that can be superimposed, the profiling position ID can be appended with the audiologist operation record, and the time length and other information; the onhearing instruction operation records are used for recording the gear-building position determined by several onhearing instructions as the gear-building position and which onhearing instructions determine the gear-building position.

The teaching film recording module is used for receiving blank time periods to be intercepted by a plurality of on-hearing agents and relevant information thereof, storing the blank time periods to the local and using the blank time periods for system rollback operation;

the first inserting module is used for acquiring the filing position from the annular teaching island, notifying each of a plurality of inviting student modules, generating second operation record data inserted into the filing position based on original operation record data, and sending the original operation record data, the second operation record data and the filing position to the plurality of inviting student modules;

the second operation record data sets the data of each filing position of the original operation record data to zero;

each inviting student module is used for acquiring the original operation record data, the second operation record data and the filing position from the first inserting module and making filing inserting data of each filing position of the original operation record data; the plurality of student inviting modules are also used for sending the filing insertion data of each filing position, the corresponding duration and position information thereof and the corresponding filing position ID to the invitation instruction seat competition module; the filing position ID is provided with specific ID information after being established;

inviting student's module administrator can be the outstanding student's representative of system invitation for monitor with the visual angle different with on-hearing classroom module or teaching module operation record data to based on the filing position that on-hearing classroom confirmed, insert supplementary explanation and the teaching of student's visual angle in corresponding teaching process, be used for promoting distributed teaching system's comprehensive teaching technological effect.

The system comprises an invitation instruction seat competition module, an invitation instruction seat competition module and a plurality of invitation student modules, wherein the invitation instruction seat competition module is used for determining and storing system weight information of each invitation student module, and determining contention results of the invitation student modules based on the filing insertion data of each filing position of the plurality of invitation student modules, corresponding duration and position information of the plurality of invitation student modules and corresponding filing position IDs (identities);

the contention result of the inviting student module is used for representing that when the inviting student filing conflict occurs, the ID of the inviting student module of the corresponding filing position can be monopolized and locked;

the invitation instruction seat competition module is further used for acquiring filing insertion data corresponding to each filing position based on the determined competition result of the invitation student module, inserting the filing insertion data into the corresponding position of the second operation record data, and combining the filing insertion data into third operation record data;

as another stackable preferred embodiment, the invitation instruction place competition module is configured to determine a contention result of the invitation student modules based on the system weight information of each invitation student module determined and stored by the invitation instruction place module, and specifically includes: and when the specific filing positions conflict, locking the corresponding filing positions, executing invited-seat weight comparison and competition according to the system weight information of each invited student module determined and stored by the invited-seat homing module, comparing the values of the system weight information of each invited student module, and determining the ID of the invited student module for obtaining the inserting right of the locked filing positions based on a specific comparison logic. For example, the initial system weight information of each inviting student module may be system preset and may exist in a hierarchical form. As another superimposable preferred embodiment, the levels may be set to be ordered from large to small according to the value size of the weight information, and level layering may be performed, in a level of a specific level, including sub-levels of the specific level. And, compare the weight information of the same level according to size first, if the weight information of the same level is the same, then compare the level size of the sub-level, and so on, as another preferred embodiment that can be superimposed, the sub-level can use the short vertical line or other forms to record on the right side of the upper level. For example, when the system includes N inviting student modules (N ═ 4), the system Weight information ID of the 1 st inviting student module may be recorded as Weight1, and the system preset initial value thereof is recorded as 2-1; recording the system Weight information ID of the No. 2 inviting student module as Weight2, and recording the system preset initial value as 3-2; recording the system Weight information ID of the 3 rd invitation student module as Weight3, and recording the system preset initial value as 3-1; recording the system Weight information ID of the No. 2 inviting student module as Weight4, and recording the system preset initial value as 1-2; then: the invitation instruction place-setting module determines and stores the system weight information of each invitation student module as follows: invitation student module ID 1: weight 1: 2-1; invitation student module ID: weight 2: 3-2; invite student module ID: weight 3: 3-1; invite student module ID: weight 4: 1-2. Then, the invitation and education place competition module compares the system weight information values of the respective invitation student modules. Firstly, comparing the weight information values of the first-level system, wherein the weight information values of the first-level system of the No. 2 inviting student module and the No. 3 inviting student module in the four inviting student modules are the maximum and are 3; and comparing the weight information values of the second hierarchy system, wherein the weight information value of the second hierarchy system of the 2 nd invitation student module is larger and is 2 in the 2 nd invitation student module and the 3 rd invitation student module, and the 2 nd invitation student module can monopolize and lock the corresponding built gear position in the invitation instruction seat competition of the corresponding file building position at this time, and executes the insertion and rewriting of the operation record data.

And the annular teaching island is also used for sending third operation record data to the student end for the student end of the distributed teaching system to execute teaching course learning.

As a superimposable preferred embodiment, the operation record data generated by the distributed teaching system teaching lessee executing the teaching operation at the teacher end of the distributed teaching system specifically includes:

recording teaching audio with specific duration;

or the like, or, alternatively,

recording teaching video with specific duration;

or the like, or, alternatively,

a combination of the above two kinds of recorded data for a certain length of time.

Referring to fig. 3 of the drawings, fig. 3 is a diagram illustrating a basic system structure of a distributed teaching system according to the present invention.

As another preferable embodiment that can be superimposed, the distributed teaching system further includes an audiometric fixed module, and the audiometric fixed module can replace any audiometric or be used as a supplementary audiometric, and is characterized in that:

and based on the intercepted blank time interval generated by the interception of the audition agent fixing module, ignoring the audition agent operation threshold value stored by the audition agent operation counter, directly regarding the audition agent operation threshold value as a filing position, and executing subsequent operation.

As another superimposable preferred embodiment, the system weight information is divided into a plurality of hierarchical levels.

As another preferred embodiment that can be superimposed, the filing locations have a certain minimum duration granularity, and the duration of each filing location can be only an integer multiple of the certain minimum duration granularity.

As another superimposable preferred embodiment, the minimum duration granularity is 10S.

As another preferred embodiment that can be superimposed, the profiling insertion data specifically includes:

recording teaching audio with specific duration;

or the like, or, alternatively,

recording teaching video with specific duration;

or the like, or, alternatively,

a combination of the above two kinds of recorded data for a certain length of time.

Referring to fig. 4 of the drawings, fig. 4 is a diagram illustrating a basic system structure of a distributed teaching system according to the present invention.

As another superimposable preferred embodiment, the distributed teaching system further comprises a first learning module, wherein the first learning module is connected to the student terminal and provides third operation record data for the student terminal.

As shown in the specification and fig. 5, fig. 5 is a schematic diagram of a preferred display embodiment of a student vacancy module shown in the invention.

As another preferred embodiment that can be overlaid, the distributed teaching system further comprises an invitation student vacancy module, the invitation student vacancy module only comprises two system setting states of enabling and disabling, and when the invitation student vacancy module is in the enabling state, the distributed teaching system directly provides original operation record data to the student end.

As another stackable preferred embodiment, the modules of the distributed teaching system perform information transmission based on a 5G communication technology, a WIFI communication technology or an NFC communication technology.

The invention provides a distributed teaching system, which is characterized in that a first teaching module and a first learning module are respectively established for a teaching end and a student end through a distributed system architecture, and the relay processing and analysis processing of teaching audio and video data are executed through an annular teaching island in a system center; secondly, the inviting student module is originally introduced, and based on the consideration of the teaching effect, the auxiliary teaching based on the comparison and selection of the inviting student module is executed on a specific teaching data intercepting part, so that the excellent comprehensive and distributed teaching effect is realized. Thirdly, through the operation statistics of introducing the on-hearing instruction position, the teaching data of on-hearing instruction position is cut and is provided with specific processing threshold value to follow the system level and carried out the restriction to the processing of teaching data, promote distributed teaching system's system control functionality. Fourthly, through the competition post-putting mechanism of the invitation instruction place, the auxiliary teaching quality comparison of the specific invitation student module is ensured, and the diversified teaching information sources are better compared with the teaching effect of remote distributed teaching.

In all the above embodiments, in order to meet the requirements of some special data transmission and read/write functions, the above method and its corresponding devices may add devices, modules, devices, hardware, pin connections or memory and processor differences to expand the functions during the operation process.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described method, apparatus and unit may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the method steps into only one logical or functional division may be implemented in practice in another manner, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as individual steps of the method, apparatus separation parts may or may not be logically or physically separate, or may not be physical units, and may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, the method steps, the implementation thereof, and the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

The above-described method and apparatus may be implemented as an integrated unit in the form of a software functional unit, which may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) or a Processor (Processor) to execute some steps of the methods according to the embodiments of the present invention. And the aforementioned storage medium includes: a U disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), an NVRAM, a magnetic disk, or an optical disk, and various media capable of storing program codes.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

It should be noted that: the above embodiments are only used to explain and illustrate the technical solution of the present invention more clearly, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.