KR102366383B1 - Method and system for certification of on-line learning completion using Experience Application Programming Interface(xAPI) based on block chain network - Google Patents

Abstract

An online learning performance authentication method and system that can objectively and consistently certify the learning outcomes of learners learning with learning contents provided by multiple learning institutions using heterogeneous blockchain networks and xAPI (Experience Application Programming Interface) This is initiated. The online learning performance authentication method according to the present invention comprises the steps of: generating, in a first block chain network, a subject creation transaction storing an authentication code in which subject information including an authentication standard of a learning subject is written in xAPI; retrieving an xAPI authentication code for the subject by inquiring the subject creation transaction when the learner starts a learning session for the subject through the DApp; performing learning tracking using the extracted xAPI authentication code as the learning session progresses; generating a session termination transaction including a learning tracking result in the first blockchain network when the learning session is terminated; analyzing the learning tracking result included in the session end transaction, determining whether the authentication criterion set in the xAPI authentication code is satisfied, and generating a learning completion transaction in the first blockchain network according to the determination result; and when the completion of the learning subject is authenticated according to the learning completion transaction, generating a completion authentication transaction of the learning subject for the learner in the second block chain network.

Description

Blockchain-based online learning performance authentication method using ｘAPA and computer program for the same {Method and system for certification of on-line learning completion using Experience Application Programming Interface (xAPI) based on block chain network}

The present invention relates to an online learning service, and specifically, objectively and consistently certifies the learning performance of learners who are learning with learning content provided by a plurality of learning institutions using a blockchain network and xAPI (Experience Application Programming Interface). It is about an online learning achievement authentication method that can be done and a computer program for it.

With the development of the online learning content industry, numerous learning institutions are providing online education services to users through e-learning or micro-learning platforms.

In particular, there is an increasing number of cases in which multiple learning institutions, such as a plurality of universities, are providing the same courses online, and each institution provides a learning service that mutually recognizes and makes compatible subjects taken at different learning institutions. In this case, if learners have studied and completed a predetermined learning subject through a desired learning institution, it should be possible to accurately check and authenticate in real time whether which user completed which subject between the learning institutions.

In order to provide the above service, it must be possible to prove whether the learning subjects conducted by each learning institution are actually the same subjects. Specifically, it is necessary to first determine whether there are any missing parts in the curriculum, whether there is a large difference in difficulty, and whether the conditions for completion are acceptable to other learning institutions.

In addition, it should be possible to objectively evaluate whether the learner met the conditions for completion when taking the course at each learning institution. It is necessary to objectively and consistently judge the completion of the course based on whether the learner has completed the required prerequisite courses, whether the test score is above a predetermined standard, as well as whether he or she actively participated in the class without drowsiness or whether someone else took it for him. .

However, in reality, it is very difficult to objectively and consistently judge the completion of a learning subject according to the above criteria. Accordingly, it is not easy to trust and authenticate the learning performance results of one learning institution in another learning institution.

On the other hand, xAPI (Experience Application Programming Interface) is an application program interface (API) for defining learner experience data and exchanging data between different learning systems in an e-learning environment that utilizes various media such as smartphones, augmented reality, and games. It is standard.

xAPI is the successor to the SCORM standard established by ADL (Advanced Distributed Learning), an American e-learning standard research and development organization. SCORM was compatible only with systems and contents to which the SCORM standard was applied, but xAPI can exchange data with learning management systems and learning tools that do not apply the xAPI standard, so various learning activity data (learning time, progress rate) etc.) can be tracked. The xAPI learner experience data is stored in the LRS (Learning Record Store), allowing other systems to access the LRS and inquire the stored data to learn, analyze, and utilize it.

xAPI is composed of three types of sentences, subject + predicate + object, and this information is accumulated in LRS and serves as big data, and by using this, learning results can be tracked using atypical standards. Therefore, by using xAPI, it is possible to determine whether the atypical condition as mentioned above is satisfied by tracking the learning process of the learner.

However, if each learning institution independently certifies, there is still a problem that it is difficult to trust the authentication results between learning institutions. In particular, if each learning institution tracks and certifies according to different standards, mutual compatibility will not be possible.

The present invention is to solve the problems of the prior art as described above, and based on the block chain network, a plurality of learning institutions use xAPI to set and agree on authentication standards for each study subject, and objectively and according to the agreed authentication standards It aims to provide an online learning performance certification method and system that can acquire and share consistent learning certification results.

In order to achieve the above object, a block chain-based online learning performance authentication method using xAPI according to an embodiment of the present invention includes a computer operating as a node of a first block chain network and a second block chain network, generating, in the first block chain network, a subject creation transaction that stores an authentication code written in xAPI with subject information including authentication standards of the learning subject; retrieving an xAPI authentication code for the subject by inquiring the subject creation transaction when the learner starts a learning session for the subject through the DApp; performing learning tracking using the extracted xAPI authentication code as the learning session progresses; generating a session termination transaction including the learning tracking result in the first blockchain network when the learning session is terminated; analyzing a learning tracking result included in the session termination transaction, determining whether an authentication criterion set in the xAPI authentication code is satisfied, and generating a learning completion transaction in the first blockchain network according to the determination result; and when the completion of the learning subject is authenticated according to the learning completion transaction, generating a completion authentication transaction of the learning subject for the learner in the second block chain network.

In the step of generating a completion authentication transaction in the second block chain network, if it is determined that the learner has met the authentication criteria of the learning subject, an amount corresponding to a reward for course completion in the learner's wallet on the second block chain network may include; controlling the payment of cryptocurrency.

In the online learning performance authentication method, when the learner applies for the course of the study through the DApp, the course information of the course creation transaction is retrieved to retrieve information on the learning content provider and the course cost for the subject step; and generating, in the second block chain network, a transaction for transferring cryptocurrency of an amount corresponding to the tuition fee from a learner wallet on the second block chain network to a learning content provider wallet.

In the learning completion transaction, when it is determined that the learner has completed all the course curriculum of the learning subject, evaluation information including identification information of the learning subject, information about the learner, and a completion certificate flag is transmitted to the first blockchain network. You can control it to be saved.

According to the present invention, based on the block chain network, a plurality of learning institutions can set and agree the certification standards for each learning subject using xAPI, and obtain and share objective and consistent learning certification results according to the agreed certification standards. there is.

1 is a diagram for explaining a network configuration of a blockchain-based online learning performance authentication system using xAPI according to an embodiment of the present invention.
2 is a flowchart illustrating a block chain-based online learning performance authentication method using xAPI according to an embodiment of the present invention.

Terms used in this specification will be briefly described, and the present invention will be described in detail.

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

In the entire specification, when a part "includes" a certain element, this means that other elements may be further included, rather than excluding other elements, unless otherwise stated. In addition, terms such as "... means", "... unit", and "module" described in the specification mean a unit that processes at least one function or operation, which is implemented in hardware or software, or is implemented in hardware and software. It can be implemented as a combination of

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

1 is a diagram for explaining a network configuration of a blockchain-based online learning performance authentication system using xAPI according to an embodiment of the present invention.

Referring to FIG. 1 , the online learning performance authentication system according to the present invention includes a first blockchain network 110 , a second blockchain network 120 , a performance authentication server 130 , a plurality of learner terminals 140 , and a plurality of of the learning institution terminal 150 may be configured.

The first blockchain network 110 and the second blockchain network 120 are each composed of a plurality of blockchain nodes. A node in a blockchain network is a server participating in the blockchain network, and when a block is created, it serves to propagate the information, so it has synchronized blockchain data. Each node is a computing device equipped with software and/or hardware means to operate as a miner performing mining in a proof-of-work blockchain network.

Each node in the blockchain network verifies whether the transaction is forged by calculating the hash value of the entire ledger in the Merkle Tree, mines a block with the transaction ledger added, adds it to the blockchain, and pays a transaction fee in return It is the receiving miner. These miners may be a computer having a plurality of floating-point arithmetic units (graphic cards), or may be an ASIC (Application Specific Integrated Circuit) type device.

Each node of the first block chain network 110 executes a decentralized application that performs an online learning performance authentication method, that is, a DApp. The performance authentication server 130 operates as one of the nodes of the first blockchain network 110 and also operates as a node of the second blockchain network 120 at the same time.

A DApp is an application that runs on a blockchain network through the operation of miners without a server, and has a backend code that runs on each node. Also, like a general application, the DApp may include frontend code that is executed in the learner terminal 140 and the learning institution terminal 150 as a user terminal and provides a user interface.

DApp acts as a window or key for users such as learners and learning institution employees to use the blockchain network, and receives user input and accordingly sets authentication standards for each subject, creates subjects, manages learning sessions, performs learning tracking, A smart contract that provides online learning performance certification services such as completion certification according to learning results can be performed. Since DApps are stored in a decentralized interpersonal network, it is difficult to hack, and related data and transactions are recorded in the public transaction ledger of the blockchain network and cannot be deleted or forged.

The first block chain network 110 may create and set authentication standards for each learning subject in xAPI in response to the request of the learning institution terminals 150 and control to generate a subject creation transaction to record the authentication criteria for each subject. When the authentication criteria are agreed and established through the learning institution terminals 150 , a subject creation transaction of the subject is generated on the first block chain network 110 . If a plurality of learning institutions writes curriculum or completion conditions for one subject in xAPI and then agrees, the corresponding xAPI authentication code will be stored as a transaction in the first blockchain network 110 .

In accordance with the occurrence of the course creation transaction, the block of the first block chain network 110 contains course identification information including the recognition code of the subject, information on learning institutions that have agreed to the certification standards for the subject, and whether the subject has been completed. The xAPI authentication code including the authentication criteria for authentication, link information for accessing meta information related to other subjects, etc. will be stored. The stored block (transaction ledger) is maintained by the process of determining whether or not it is forged through the consensus of each node, that is, a hash value operation.

A learner can take a desired subject anywhere through various learning institutions by using the learner terminal 140 . The curriculum of each learning institution may be different, but the content of education for subjects that require mutual compatibility must meet the pre-agreed and established accreditation standards.

The learner terminal 140 is a terminal used by a learner who wants to take a learning course by playing the educational content provided online. 120) and an external educational content server (not shown).

The learner terminal 140 does not directly store block chain data, but connects to a node that acts like a kind of server to access the block chain and use smart contracts. The learner terminal 140 is a computing device such as a personal computer, a smart phone, a personal digital assistant (PDA), a portable computer, etc. that uses an online learning service by accessing a block chain network through a node.

The learning institution terminal 150 does not directly store block chain data, but connects to a node that acts like a kind of server to access the block chain and use smart contracts. The learning institution terminal 150 connects to the block chain networks 110 and 120 through a node, sets the authentication standards for each subject of online learning, and uses the online learning performance authentication service, a computing device such as a smartphone, PDA, portable computer, etc. am.

Learners take a desired course through the learner terminal 140 , and a learning session of the corresponding subject is established each time they start taking the course. The establishment and learning of the learning session is carried out through the DApp, and the DApp can process the learning tracking result in the first blockchain network 110 by storing the result of tracking the learner's learning process in the session end transaction for the session. let it be

As the learning session starts, the DApp generates a learning session start transaction in the first blockchain network 110, and when the learning session ends, the tracking result according to the xAPI authentication code is included in the learning session end transaction and stored. Subject identification information, learner information, and tracking results will be stored in the first blockchain network 110 by the learning session end transaction, and when a plurality of learning sessions are conducted by dividing a predetermined subject several times A plurality of tracking results for the subject will also be saved.

As a result of analyzing the tracking result, the authentication server 130 may generate a learning completion transaction according to the learning tracking result when it is determined that the learning of the learner's subject is complete. Whether or not learning is completed may be determined based on a learning completion criterion set in advance in a transaction for creating a subject, such as taking a lecture, submitting an assignment, completing a test, and the like of the corresponding subject.

The learning completion transaction will store the block including the identification information of the learning subject, information about the learner, and the completion evaluation information including the completion certification flag in the first blockchain network 110 . Whether or not to certify completion may be determined according to the accreditation standards indicated in the xAPI authentication code of the subject. When each learning institution accesses the authentication server 130 operating as a node of the first block chain network 110 using the learning institution terminal 150, which learner successfully completed which subject, or completed the learning but completed You can check whether the certification has not been received and issue a certificate of completion.

According to the learning completion transaction generated in the first block chain network 110, when it is determined that a predetermined condition, that is, the completion authentication standard set in the xAPI authentication code of the subject, is satisfied, a predetermined amount of coins are transmitted to the learner's wallet address As much as possible, treat it as a smart contract. These smart contracts are determined in advance and recorded in the block chain network 110, and since the first block chain network 110 is a block chain that cannot process cryptocurrency, the reward coin is paid from the second block chain network 120 control as much as possible.

The learner's wallet address can be obtained from the DApp as a wallet address on the second blockchain network 120 . The DApp can generate a completion authentication transaction in the second block chain network 120 when the completion authentication criteria are satisfied, and through this completion authentication transaction, the above-mentioned completion compensation amount is transferred to the learner's wallet address, or other methods such as payment of points Compensation processing for course completion can be performed by

As described above, the online learning performance authentication system according to the present invention may be composed of two block chain networks interworking with each other.

The first blockchain network 110 generates an authentication standard according to xAPI, stores a tracking result according to this xAPI authentication code, and performs completion authentication for each subject by a preset smart contract according to the xAPI tracking result.

The second block chain network 120 may process cryptocurrency transactions, work with the first block chain network 110 and share one or more nodes 130 .

In accordance with the occurrence of a transaction, each node performs proof of work. Although the first block chain network 110 is a block chain network independent of cryptocurrency, the proof of work of the node is compensated on the second block chain network 120 . (mining) can be done. These heterogeneous blockchain networks 110 and 120 can be connected and interlocked by smart contracts.

The DApp is executed in conjunction with both the first block chain network 110 and the second block chain network 120, and the DApp itself is executed on the block chain network. Therefore, the learning process of receiving and playing content from the learning content server is performed outside the block chain network 110, 120, but inquires about completion according to the result of establishing a learning session and tracking with xAPI, generating a certificate of completion, and rewards Payments and the like can be performed on the blockchain network by DApps.

2 is a flowchart illustrating a block chain-based online learning performance authentication method using xAPI according to an embodiment of the present invention.

In step S21, when the authentication standard of a predetermined learning subject is agreed through the learning institution terminal 150, the server 130 operating as a node of the first block chain network 110 and the second block chain network 120 for the subject It is created by writing the authentication criteria for xAPI.

In step S22, when the authentication criteria for a predetermined learning subject are generated, a subject creation transaction including the xAPI authentication code written above will be generated in the first block chain network 110 . In accordance with the occurrence of the course creation transaction, the block of the first block chain network 110 contains course identification information including the recognition code of the subject, information on learning institutions that have agreed to the certification standards for the subject, and whether the subject has been completed. The xAPI authentication code including the authentication criteria for authentication, link information for accessing meta information related to other subjects, etc. will be stored.

When a learner applies for a course of a predetermined learning course through the DApp, the course information of the course creation transaction is retrieved and information on the learning content provider and course cost for the subject is retrieved and provided to the learner terminal 140, and the learner's Course registration can be performed according to the interaction.

When there is a course fee, a transaction is generated in the second block chain network 120 to transfer cryptocurrency of an amount corresponding to the course fee from the learner's wallet on the second block chain network 120 to the wallet of the learning content provider. The learner terminal 140 can apply for courses and make payment through the DApp, and when payment is made, the corresponding cost will be remitted to the wallet on the second block chain network 120 of the learning institution.

When a learner using the learner terminal 140 starts a learning session for a given subject through the DApp, the server 130 retrieves the subject creation transaction in the first blockchain network 110 to retrieve the xAPI authentication code for the subject. do. At this time, the xAPI authentication code can be retrieved by querying the ledger of the block chain with the subject recognition code of the subject. Whenever a learning session is established, the dApp dynamically loads the authentication criteria written in xAPI by querying the course creation transaction.

In step S23, as the learning session progresses, learning tracking is performed using the xAPI authentication code retrieved above.

In step S24, when the learning session is terminated by the learner ending the class, a learning session termination transaction including the learning tracking result is generated in the first blockchain network 110 . The process from the start to the end of this learning session will be repeated every time the learner starts and ends taking the subject, and accordingly, the learning tracking result of the subject will be accumulated in the first blockchain network 110 .

In step S25, it is determined whether the learning of the subject has been completed by analyzing the learning tracking result generated whenever the learner takes a predetermined subject. In the block stored by the course creation transaction, it is possible to determine whether the entire course of the course has been completed by using the completion criteria or meta information for the corresponding course.

When the learning of the subject is completed, the process proceeds to step S26 to generate a learning completion transaction according to the learning tracking result in the first block chain network 110 . Analyze one or more learning tracking results stored in the block chain network 110 according to the occurrence of a session end transaction, determine whether the learner's course attendance result satisfies the authentication criteria set in the xAPI authentication code, and execute the learning completion transaction according to the judgment result It is generated in the first blockchain network 110 . The learning completion transaction will create a block including information about the learner, information about the learning subject, information about the learner's attendance history, and whether or not completion is certified according to the xAPI authentication code.

In step S27, when it is authenticated that the learner has successfully completed the corresponding learning subject according to the learning completion transaction, a completion authentication transaction for the corresponding learning subject is generated in the second block chain network 120 .

The second block chain network 120 is a block chain network that processes cryptocurrency transactions, and when a completion authentication transaction is generated here, a reward for the student's successful course completion can be automatically paid. That is, when it is determined that the learner has met the authentication criteria of the learning subject, a predetermined reward is given to the learner by controlling to pay the cryptocurrency of the amount corresponding to the reward to the learner's wallet on the second block chain network 120 can make it go away

The method according to an embodiment of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the present invention, or may be known and available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic such as floppy disks. - includes magneto-optical media, and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto. belong to the scope of the right.

110: first blockchain network (learning tracking network)
120: 2nd blockchain network (cryptocurrency trading network)
130: node (learning achievement authentication server)
140: learner terminal
150: learning institution terminal

Claims (5)

A computer operating as a node of the first blockchain network and the second blockchain network,
generating, in the first block chain network, a subject creation transaction that stores an authentication code written in xAPI with subject information including authentication standards of the learning subject;
when a learner starts a learning session for the learning subject through a DApp (Decentralized Application), querying the subject creation transaction to retrieve an xAPI authentication code for the subject;
performing learning tracking using the extracted xAPI authentication code as the learning session progresses;
generating a session termination transaction including the learning tracking result in the first blockchain network when the learning session is terminated;
analyzing a learning tracking result included in the session termination transaction, determining whether an authentication criterion set in the xAPI authentication code is satisfied, and generating a learning completion transaction in the first blockchain network according to the determination result; and
When the completion of the learning subject is authenticated according to the learning completion transaction, generating a completion authentication transaction of the learning subject for the learner in the second block chain network;

The xAPI authentication code is stored as a transaction in the first blockchain network after a plurality of learning institutions write curriculum or completion conditions for the learning subject in xAPI and agree to it,
A block chain network is divided into the first block chain network and the second block chain network according to whether cryptocurrency processing is possible, and the first block chain network includes the course creation transaction, session end transaction, and learning completion transaction. A related transaction is stored, and the completion authentication transaction is stored in the second blockchain network,
The computer operates as a node of the first blockchain network and the second blockchain network, respectively, but is connected and interlocked by a smart contract that is set and recorded in advance to perform a specific function for each blockchain network,

The DApp is an application that runs on each blockchain network, and includes a backend code that runs on each node, and a frontend code that provides a user interface that runs on learners and learning institutions. , Recall the smart contract that provides online learning performance authentication services including setting authentication standards for each subject, creating subjects, managing learning sessions, performing learning tracking, and certifying completion according to learning results in response to user input from learners and learning institutions It is performed by linking both the first blockchain network and the second blockchain network,
When the course creation transaction occurs in the first block chain network, the course information is retrieved and information on the learning content provider and course cost for the subject is retrieved, and then cryptocurrency of the amount corresponding to the course fee is exchanged. generating a transaction from the learner wallet on the second blockchain network to the learning content provider wallet in the second blockchain network,
When the learning completion transaction occurs in the first blockchain network, it is determined whether the authentication criteria set in the xAPI authentication code are satisfied. Controls so that evaluation information including information on information and a flag on whether or not to complete certification is stored in the first blockchain network,
Block using xAPI, characterized in that when a completion authentication transaction occurs in the second blockchain network, a cryptocurrency of an amount corresponding to a reward for completing a course is controlled to be paid to a learner wallet on the second blockchain network A chain-based online learning performance authentication method. delete delete delete A computer program recorded on a recording medium to perform the blockchain-based online learning performance authentication method using the xAPI of claim 1.

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