KR20210022378A - Electronic attendance system based on blockchain and method thereof - Google Patents

Abstract

The present invention relates to an electronic attendance management system based on a blockchain network. The electronic attendance management system is composed of a blockchain network including a main network having a plurality of main nodes, and subnetworks including each main node and sub nodes connected to the main node. The main nodes include classroom nodes, and the sub nodes include an attendance management node and a plurality of student nodes. The student nodes generate a message including attendance request information and transmit the message to the attendance management node, and the attendance management node collects the messages received from the student nodes, creates a smart contract transaction, and sends the smart contract transaction to the classroom nodes. The classroom node creates a block for the smart contract transaction received from the attendance management node, stores and records a generated block in the blockchain, and stores and manages the attendance information of the student nodes in the blockchain of the blockchain network.

Description

Electronic attendance system based on blockchain and method thereof {Electronic attendance system based on blockchain and method thereof}

The present invention relates to an electronic attendance management system and electronic attendance management method based on a block chain, and more specifically, a smart contract for electronic attendance is created and recorded in the blockchain, and the classroom node, attendance management node, and student node They form a blockchain network, and the attendance management node collects the attendance-related information of the student nodes and provides it to the classroom node using a smart contract, and the classroom node creates a block of attendance-related information and records it in the blockchain. It relates to an electronic attendance management system and method.

In the existing attendance management system, an attendance management manager such as a teacher directly checks the attendance of each student and records it manually in the system. However, such a conventional method has a problem that the attendance management person in charge has to check every time, and it takes time each time. In addition, since it is difficult to accurately verify the identity of attendees, problems such as substitute attendance of students arise.

Therefore, various methods have been proposed to identify students' identities through an electronic method and to manage students' attendance.

In addition, since the existing attendance system or electronic attendance system is stored on the server of the school, it is vulnerable to the risk of hacking due to the single point of failure of the server, and additional costs such as installing a large amount of backup servers are incurred. .

Korean Patent Application Publication No. 10-2017-0091879 Korean Registered Patent Publication No. 10-1877333

An object of the present invention for solving the above-described problems is to provide an electronic attendance management system and an electronic attendance management method capable of ensuring network security and data integrity using a blockchain network.

The electronic attendance management system based on the blockchain network according to the first feature of the present invention for achieving the above-described technical problem includes a main network including a plurality of main nodes, each main node, and a sub-node connected to the main node. It is characterized in that it is composed of a block chain network having sub-networks including,

The main nodes include classroom nodes that store and manage the blockchain, the sub-nodes include an attendance management node and a plurality of student nodes, and the plurality of student nodes generate a message including attendance request information to attend It is transmitted to the management node, and the attendance management node creates a smart contract transaction by collecting messages received from the student nodes and transmits it to the classroom node,

The classroom node creates a block for the smart contract transaction received from the attendance management node, stores the generated block in the blockchain and records it, and stores and manages the attendance information of the student nodes in the blockchain network.

In the electronic attendance management system according to the first feature described above, the attendance management node and the student node receive a public key, a private key, and a blockchain network account through an initial authentication process from an authentication authority, and the public key and the blockchain network It is desirable to participate in the sub-network by registering as a sub node in the classroom node for each lecture using an account.

In the electronic attendance management system according to the above-described first feature, the student node transmits a message including attendance request information to the attendance management node, and sends an attendance completion message or an attendance error message from the attendance management node in response to the attendance request. It is desirable to receive.

In the electronic attendance management system according to the first feature described above, the attendance management node receives a block chain message including attendance request information from a student node, uses a smart contract to check the student information requested to attend, and checks the attendance. And, it records attendance status information according to attendance time, generates an attendance completion message or error message according to the attendance status information and transmits it to the student node, and when the lecture is finished, the recorded information is collected to create a smart contract transaction, It is desirable to transmit the smart contract transaction to the classroom node.

In the electronic attendance management system according to the above-described first feature, it is preferable that the message is generated according to a blockchain message protocol.

An electronic attendance management method based on a blockchain network according to a second aspect of the present invention comprises the steps of: (a) configuring a main network including classroom nodes for storing and managing a blockchain; (b) configuring a sub-network including an attendance management node and a plurality of student nodes connected to each classroom node; (c) generating a message including attendance request information by the plurality of student nodes and transmitting the message to the attendance management node; (d) the attendance management node collecting messages received from student nodes, creating a smart contract transaction including student attendance information, and transmitting it to a classroom node; And (e) generating a block for the smart contract transaction received from the attendance management node by the classroom node, and storing and recording the generated block in the block chain; including, and storing student attendance information in a block of the blockchain network. It is desirable to store and manage them on the chain.

In the electronic attendance management method according to the second feature described above, in step (b), the attendance management node and the student node receive a public key, a private key, and a blockchain network account through an initial authentication process from an authentication authority. , It is desirable to participate in the sub-network by registering as a sub-node in the classroom node for each lecture using a public key and a blockchain network account.

In the electronic attendance management method according to the second feature described above, in step (c), the student node transmits a message including attendance request information to the attendance management node, and attendance from the attendance management node in response to the attendance request. It is desirable to receive a completion message or an attendance error message.

In the electronic attendance management method according to the second feature described above, in step (d), the attendance management node receives a block chain message including attendance request information from a student node, and a student who requests attendance using a smart contract Check the information, check attendance, record the attendance status information according to the attendance time, generate an attendance completion message or error message according to the attendance status information and send it to the student node, and collect the recorded information when the lecture ends. It is desirable to create a smart contract transaction and transmit the smart contract transaction to a classroom node.

The electronic attendance management system according to the present invention is based on a blockchain network, thereby ensuring network security and non-determinism of data.

In addition, the electronic attendance management system according to the present invention enables automatic attendance management using a smart contract, and this can be recorded in the blockchain of the blockchain network.

In addition, the electronic attendance management system according to the present invention transmits and receives data between the student node and the attendance management node, which is a sub-node, in the form of a message without generating a block, and collects the data after the lecture is completed and uses a smart contract. Data is recorded on the blockchain in the form of blocks. As a result, all data recorded on the blockchain in this process is fundamentally prevented from forgery and alteration of data by malicious attackers by the nature of authentication, non-repudiation, and data integrity of the blockchain. In addition, in the case of students and attendance managers composed of sub-nodes, real-time performance is guaranteed and scalability is high because data is exchanged only through messages without generating blocks, and all operations can be performed with a smartphone.

The attendance management system according to the present invention uses smart contract technology that combines a block chain with an existing digital contract to ensure automaticity by recording student attendance details on a blockchain network, and also guarantees reliability with the characteristics of the block chain. I can. Students use student ID or mobile student ID to transmit data in the form of a message to attendance management node, and after the management node collects the results, the classroom node records the result on the blockchain network to ensure authentication, non-repudiation, and integrity. In addition, since each student becomes a sub-node that is subordinate to the classroom, it is faster and more scalable than when all students become nodes to form a blockchain network. Since attendance records are stored on the blockchain, they can be checked at any time and can be managed transparently. Therefore, it is possible to block hacking and data forgery or alteration attempts by malicious nodes or attackers.

1 is a block diagram showing the overall electronic attendance management system according to a preferred embodiment of the present invention.
2 is a schematic diagram conceptually showing a sub-network 10 including sub-nodes connected to a classroom node in an electronic attendance management system according to a preferred embodiment of the present invention.
FIG. 3 is a diagram exemplarily showing a block chain network account assigned to each node in an electronic attendance management system according to a preferred embodiment of the present invention.
4 is a code schematically illustrating a smart contract in which an attendance management node checks an attendance status for a student node in an electronic attendance management system according to a preferred embodiment of the present invention.
5 is a flow chart specifically illustrating the operation of the student node in the electronic attendance management system according to a preferred embodiment of the present invention.
6 is a flowchart specifically illustrating an operation of the attendance management node in the electronic attendance management system according to the preferred embodiment of the present invention.

In the electronic attendance management system and electronic attendance management method based on the blockchain according to the present invention, a smart contract for electronic attendance is created and recorded in the blockchain, and the classroom node, attendance management node, and student nodes establish a blockchain network. The student nodes provide the attendance-related information in the form of messages to the attendance management node, and the attendance management node collects the attendance-related information received from the student nodes and converts a smart contract transaction including student attendance information to the classroom node. Provided, and characterized in that the classroom node creates a block for the smart contract transaction and records it in the blockchain.

Hereinafter, an electronic attendance management system and an electronic attendance management method based on a blockchain network according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the overall electronic attendance management system according to a preferred embodiment of the present invention. Referring to FIG. 1, the electronic attendance management system 1 based on the blockchain network according to the present invention includes a main network 20 including a plurality of main nodes, each main node and sub-nodes connected to the main node. It is composed of a block chain network having sub-networks 10 including.

The main nodes include classroom nodes 100 for storing and managing a block chain, and the sub-nodes include an attendance management node 110 and a plurality of student nodes 120. The attendance management nodes and student nodes receive a public key, a private key, and a blockchain network account through the initial authentication process from the certification authority, and use the public key and the blockchain network account as sub-nodes in the classroom node for each lecture. Register to participate in the sub-network.

As shown in Fig. 1, smart contract transactions that coded attendance information for students collected in each classroom are recorded in the block chain in the form of blocks. The smart contract transaction includes information such as the student's name and student number, and whether each student is present or late. Each node generates a block through the proof-of-work method for all transactions occurring in the process, and the generated block is validated by a majority of nodes, and a (n+1)th block is created that includes all the transactions collected up to that point in time. , The generated (n+1)th block is recorded on the blockchain network and shared by all nodes.

2 is a schematic diagram conceptually showing a sub-network 10 including sub-nodes connected to a classroom node in an electronic attendance management system according to a preferred embodiment of the present invention. 2, the attendance management node 110 and the student nodes 120 participate in the sub-network, and they transmit and receive information related to attendance in the form of a block chain message with each other. The attendance management node and the student node, which are sub-nodes of each classroom node, are authenticated when the lecture is organized and are given public keys, private keys, and network accounts. At this time, students use their name, student number, etc. to obtain certification, and use a student ID or mobile student ID to prove themselves later. Through this, you verify your identity and participate in the blockchain network. Since the attendance management nodes and students that can participate in each lecture are different, only sub-nodes with information in advance through course registration can participate in the network. To check whether a specific node is an authenticated node, it is possible to check through the electronic signature of the transaction sent using the private key of the node and the blockchain network account. Data transmission between sub-nodes is done through blockchain messages. In the case of blockchain messages, real-time is guaranteed because they are not recorded in blocks immediately, and they are more scalable than existing blockchain networks. After the lecture is over, the lecture room node writes the attendance details of the lecture room as a smart contract.

FIG. 3 is a diagram exemplarily showing a block chain network account assigned by an authentication authority to each node in an electronic attendance management system according to a preferred embodiment of the present invention. Referring to FIG. 3, the certification authority assigns different accounts according to the role of the node, and it is preferable that the classroom, the attendance manager of the attendance management node, and the students of the student node are assigned different accounts, so that they are distinguished from each other. . As an example, a block chain network account consists of 10 to 12 bytes of hexadecimal number, and as shown in FIG. 3, a block chain network is created for each type of node. Classify each node by starting an account with 0xXX for the classroom node, 0x1XX for the attendance management node, and 0xXX for the student node.

Each student node needs a student ID or mobile student ID, which can be called a private key at the school, for its own authentication. As a student, a student node that authenticates itself using a student ID or mobile student ID will have a unique private key, public key, and blockchain network account. Blockchain network accounts are created using information such as student names and student numbers, and attendance management nodes and classroom nodes can identify who the students are and manage attendance through the blockchain network account. Since the generated public key and blockchain network account are recorded in the blockchain, all nodes can know it, but only each node that has been given the private key has it, and other nodes cannot abuse it.

First, each classroom node forms the main network of the blockchain network, and when the student node and the attendance management node authenticate using their own private key and public key, they become sub-nodes of the sub-network and participate in the network.

All transactions generated by classroom nodes, which are main nodes, not sub-nodes, are broadcasted to the blockchain network, and proof of work is performed at each node to obtain block creation rights. The first generated n+1 block is propagated to the blockchain network, validated by all nodes, and then continued to the nth block and recorded in the block chain, thereby ensuring the integrity of the data.

5 is a flow chart specifically illustrating the operation of the student node in the electronic attendance management system according to a preferred embodiment of the present invention. Referring to FIG. 5, the plurality of student nodes 120 generates a block chain message including attendance request information and transmits it to the attendance management node (step 500). Here, the attendance request information includes current time information of each student node and identification information on the student node. Here, the identification information on the student node includes a name, a student number, an attendance time, information on whether or not a student is a student.

Next, an attendance completion message or an attendance error message is received from the attendance management node in response to the attendance request (step 510). The student node terminates when the attendance completion message is received. If an attendance error message is received, if it is due to an incorrect lecture, it is terminated. If not, the student node sends a message again to request attendance confirmation.

6 is a flowchart specifically illustrating an operation of the attendance management node in the electronic attendance management system according to the preferred embodiment of the present invention. 6, when the attendance management node 110 receives a block chain message including attendance request information from the student node (step 600), it checks whether the message sender is a student of the corresponding class (step 610). . Next, check the time of the message of the student requesting attendance using the smart contract, check the attendance, record the attendance status information according to the attendance time including attendance, lateness, absence, etc., and the attendance completion message to the corresponding student node Is transmitted (step 620). If the class is not a student, an error message is transmitted (step 630).

On the other hand, the attendance management node 110 generates a smart contract transaction including student attendance information by collecting the recorded information when the corresponding lecture is finished, and transmits the smart contract transaction to the classroom node (step 640). .

4 is a code exemplarily showing a function of a smart contract in which an attendance management node checks and records the attendance status for a student node in the electronic attendance management system according to a preferred embodiment of the present invention. Referring to FIG. 4, when the attendance request information of the student is received, the smart contract checks whether a message was received from the student, checks whether or not a normal attendance or lateness is received according to the received time, and records the attendance status. In FIG. 4, now(uint) is a function representing the current time, and if attendance check is performed within a predetermined time using this, attendance is completed, and lateness and absence are recorded according to conditions. At this time, the list of each student is held by the classroom and the attendance management node, so the student who requested attendance is compared and recorded.

The classroom node 100 generates a block for the smart contract transaction received from the attendance management node, and stores the generated block in a block chain and records it.

Accordingly, the electronic attendance management system according to the present invention stores and manages attendance information of student nodes in the block chain of the block chain network.

In the above, the present invention has been described with reference to its preferred embodiments, but these are only examples and do not limit the present invention, and those of ordinary skill in the field to which the present invention pertains will not depart from the essential characteristics of the present invention. It will be appreciated that various modifications and applications not exemplified above are possible in the range. And, differences related to these modifications and applications should be construed as being included in the scope of the present invention defined in the appended claims.

1: Electronic attendance management system
100: classroom node
110: attendance management node
120: Student node

Claims (9)

In the electronic attendance management system based on the blockchain network,
It is characterized in that it is composed of a main network including a plurality of main nodes and a block chain network having sub-networks including sub-nodes connected to each main node and the corresponding main node,
The main nodes include classroom nodes that store and manage the blockchain,
The sub-nodes include an attendance management node and a plurality of student nodes,
The plurality of student nodes generate a message including attendance request information and transmit the message to the attendance management node,
The attendance management node collects messages received from student nodes, creates a smart contract transaction, and transmits it to the classroom node,
The classroom node creates a block for the smart contract transaction received from the attendance management node, stores the generated block in the blockchain and records it,
Electronic attendance management system, characterized in that storing and managing the attendance information of student nodes in the block chain of the blockchain network. The method of claim 1, wherein the attendance management node and the student node are
Receive public key, private key and blockchain network account through the initial authentication process from the certification authority,
Electronic attendance management system, characterized in that by registering as a sub-node in a classroom node for each lecture using a public key and a blockchain network account, and participating in the sub-network. The method of claim 1,
The student node transmits a message including attendance request information to the attendance management node, and receives an attendance completion message or an attendance error message from the attendance management node in response to the attendance request. The method of claim 1,
The attendance management node receives a block chain message including attendance request information from the student node,
Check the student information requested for attendance using a smart contract, check the attendance, record the attendance status information according to the attendance time, generate an attendance completion message or an error message according to the attendance status information, and send it to the student node,
An electronic attendance management system, characterized in that, when a lecture is finished, the recorded information is collected to generate a smart contract transaction, and the smart contract transaction is transmitted to a classroom node. The method of claim 1,
The electronic attendance management system, characterized in that the message is generated according to a blockchain message protocol. In the electronic attendance management method based on the blockchain network,
(a) configuring a main network including classroom nodes for storing and managing a block chain;
(b) configuring a sub-network including an attendance management node and a plurality of student nodes connected to each classroom node;
(c) generating a message including attendance request information by the plurality of student nodes and transmitting the message to the attendance management node;
(d) the attendance management node collecting messages received from student nodes, creating a smart contract transaction including student attendance information, and transmitting it to the classroom node; And
(e) generating a block for the smart contract transaction received from the attendance management node by the classroom node, and storing the generated block in the block chain for recording;
With a, electronic attendance management method, characterized in that storing and managing the attendance information of students in the block chain of the blockchain network. The method of claim 6, wherein step (b),
The attendance management node and the student node receive a public key, a private key, and a blockchain network account through the initial authentication process from the certification authority, and register as a sub-node in the classroom node for each lecture using the public key and blockchain network account. Electronic attendance management method, characterized in that to participate in the sub-network. The method of claim 6, wherein step (c),
Wherein the student node transmits a message including attendance request information to the attendance management node, and receives an attendance completion message or an attendance error message from the attendance management node in response to the attendance request. The method of claim 6, wherein step (d),
The attendance management node receives a block chain message including attendance request information from the student node,
Check the student information requested for attendance using a smart contract, check the attendance, record the attendance status information according to the attendance time, generate an attendance completion message or an error message according to the attendance status information, and send it to the student node,
When the lecture is finished, the recorded information is collected to generate a smart contract transaction, and the smart contract transaction is transmitted to a classroom node.

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