KR102044396B1 - System and method for managing national disaster safety based on a blockchain - Google Patents

Abstract

The present invention relates to a system and a method for national disaster management based on a block chain. The system for national disaster management includes a block chain network includes a plurality of nodes whose identities are verified, and context information for nodes participating in the block chain network is recorded in blocks of a block chain. Also, a node to provide disaster-related information generates a transaction including encoded data and an access tree, digitally signs the generated transaction by using a private key of the node, and then generates a block including the signed transaction to disseminate the block to the block chain network. The data are disaster-related data. The access tree is generated by using context information of nodes having an access right to a block including a corresponding transaction, and preferably has access right information for encoded data included in the corresponding transaction.

Description

System and method for managing national disaster safety based on a blockchain}

The present invention relates to a national disaster management system and method based on blockchain, and more particularly, to construct a private blockchain network in which only nodes whose identity is proved and provide access authority information to the transaction. Encrypted data is included so that only authorized nodes can access it, so that no malicious node can participate, any identity authority can quickly create a block, and even if the block is propagated, disaster-related access is allowed. It relates to national disaster management systems and methods that ensure that only responding agencies have access to data.

PS-LTE (Public Safety LTE), a national national disaster safety communication network, is a single communication network that enables various agencies to cooperatively and effectively respond to disasters that require joint response from government agencies and public agencies. The conventional national disaster safety communication network is a technology that adds essential functions for disaster safety to the existing LTE technology on a national scale.

The national disaster safety communication network supports not only voice communication but also high speed data communication such as video communication and high-definition image transmission, so that it is possible to accurately identify the disaster situation and respond more quickly to command control and rescue.

As data transmitted through the existing national disaster safety communication network is stored in a server-centric database, such data can be accessed by malicious hackers, can be manipulated, forged and deleted, and server-centric security problems exist. There is a problem that data forgery / modulation is possible, so that the integrity and reliability of data is not guaranteed.

Blockchain, also known as a public transaction book, is a distributed data storage technology that stores data in a block and connects them in a chain form. Blockchain technology sends transaction details to all users participating in a transaction without keeping transaction records on a centralized server, and every transaction participant shares and collates information to prevent data forgery and tampering. Will be. In addition, this advantage allows all participants to share all data and information in the form of a blockchain, ensuring transparency and indecision. In the aforementioned blockchain, all nodes participating in the blockchain network are stored and managed in memory.
On the other hand, in a blockchain network consisting of a plurality of nodes storing a blockchain, when one node broadcasts an electronically signed transaction, all nodes that receive it will proceed with the proof-of-work process. The node that finds the switch value has the authority to create a block after being verified by other nodes in the blockchain network. A node having a block creation authority broadcasts block generation information including a transaction to all nodes of a blockchain network, and all nodes that receive the block generate a block including a transaction and generate the block in their blockchain. Will be connected and saved.
In the existing blockchain technology, blocks are connected while the hash value of the previous block is included in the next block. A block consists of data organized in the form of a transaction and a nonce value that is a random variable. Nonce is a proof-of-work process that finds a nonce as a random variable that satisfies the hashing value of transactions included in the block to be smaller than the reference value in order to control the difficulty of generating the block. Proof-of-Work prevents the attack of malicious nodes because it does not know which node in the blockchain network succeeds in finding the nonce and generates the block.

In addition, since the blocks created by the proof-of-work process are connected by hash values, all nodes in the blockchain network become completely different hash values because malicious nodes change the data in the blocks. As long as the computing power of the malicious node does not exceed 51%, data integrity characteristics are guaranteed.

The above-described Proof-of-Work block generation consensus process is efficient in a situation where trust is distributed because there is no information about nodes on the network, but it requires a huge amount of computing power to find a nonce. There is a much consuming problem.

Therefore, since the national disaster safety communication network needs to send and receive data quickly for rapid disaster response, the conventional block generation agreement process that requires time-consuming proof-of-work process for block generation is required. It will not be applicable to the disaster safety network.

Korean Patent Publication No. 10-2018-0046269

An object of the present invention for solving the above-mentioned problems is to configure a private blockchain network in which only the nodes whose identity is proved and provide access authority information for the transaction, thereby providing only the nodes having access authority to the encrypted data included in the transaction. This access ensures that no malicious node can participate, all identity agencies can quickly create blocks, and that even if the block is propagated, only disaster-related response agencies with access can access the data. It is to provide a national disaster management system and method.

The national disaster management system according to the first aspect of the present invention for achieving the above-described technical problem, has a blockchain network comprising a plurality of nodes whose identity is verified, to the nodes participating in the blockchain network Context information is characterized in that recorded in the block of the blockchain,

The node to provide disaster related information generates a transaction including a disaster number, encrypted data, and an access tree, digitally signs the generated transaction using its private key, and then includes a block including the signed transaction. It generates and propagates to the blockchain network,

The data is disaster related data,

The access tree is generated by using context information of nodes having access authority to a block including the transaction, and preferably has access authority information on encrypted data included in the transaction.

In the national disaster management system based on the blockchain according to the first aspect, the nodes constituting the blockchain network have an alarm application that is automatically executed when a new block is generated and propagated in the blockchain network. ,

The alarm application decrypts a transaction included in the block by using a public key for the block propagation node that propagates the block, and accesses the context information of the block receiving node that receives the block in the decrypted transaction. Determining whether or not the tree is satisfied, and if the context information of the block receiving node satisfies the access tree, it is preferable to generate an alarm to the block receiving node to inform that the disaster information has arrived.

When the context information of the block receiving node satisfies the access tree, an alarm is generated, a secret key is generated using the context information of the block receiving node, and the transaction is generated using the generated secret key. More preferably, the original data is obtained by decrypting the included encrypted data.

In the national disaster management system based on the block chain according to the first aspect described above, the block propagation node encrypts the disaster-related data using its context information and includes the encrypted data in a transaction. In addition, the access tree included in the transaction is preferably generated using the context information for the corresponding organizations preset according to the type of disaster.

In the national disaster management system based on the blockchain according to the first aspect described above, the node constituting the blockchain network searches for data stored in the blockchain on the basis of the disaster number after the disaster is completed. It is desirable to obtain the time of occurrence, data generation authority, data access authority, and data content.

The national disaster management method according to the second aspect of the present invention relates to a national disaster management method using a blockchain network composed of a plurality of nodes whose identity is verified, and (a) to nodes participating in the blockchain network. Recording context information about the block in a blockchain in the form of a transaction; And (b) a transaction comprising a disaster number, encrypted data, and an access tree is generated by the node to provide disaster related information, digitally signing the generated transaction, and then generating a block comprising the transaction. Propagating to the blockchain network by including;

The data is disaster related data,

The access tree is generated by using context information of nodes having access authority to a block including the transaction, and preferably has access authority information on encrypted data included in the transaction.

In the national disaster management method based on the blockchain according to the second aspect described above, (c) For a node constituting the blockchain network, when a new block is generated and propagated in the blockchain network, it is automatically executed. And installing and executing an alarm application.

The alarm application decrypts a transaction included in the block using the public key for the node that propagates the block, and accesses the context tree of the block receiving node that receives the block to include the access tree included in the decrypted transaction. It is preferable to determine whether or not to satisfy, and if the context information of the block receiving node satisfies the access tree, an alarm is generated to the block receiving node to inform that the disaster information has been received.

When the context information of the block receiving node satisfies the access tree, an alarm is generated, a secret key is generated using the context information of the block receiving node, and the transaction is generated using the generated secret key. More preferably, the original data is obtained by decrypting the included encrypted data.

The present invention relates to a national disaster safety network based on a blockchain that grants access to data using the CP-ABE algorithm, and all data generated from disaster situation command control and reporting and real-time communication when a disaster occurs. Because of the data integrity, self-authentication and non-repudiation of the blockchain, reliability is ensured in the feedback process after the progress and termination of the situation.

The blockchain network according to the present invention is configured as a private blockchain network so that only authorized institutions can participate as nodes, and when participating, they are verified and the context information of the corresponding organizations is recorded in the blockchain. Identity is proved. Therefore, the system according to the present invention improves security because not only a malicious node which may adversely affect the network can participate, but also once recorded data cannot be forged / modulated.

In addition, the block generation consensus process in the blockchain network according to the present invention applies a Proof-of-Authority (PoA) method to generate a block upon generation of data to be propagated by all the institutions whose identity is verified and verified by other institutions. Unlike existing block generation agreements based on proof-of-work, block creation is faster, allowing immediate command control, reporting and communication in real time in a disaster situation to the blockchain network. It can be propagated.

In addition, all data generated in the national disaster safety management system according to the present invention are granted access rights using the CP-ABE algorithm. Thus, even if a block is created and propagated, access is granted only to some institutions for transactions in the block. As a result, the access tree generated based on the context information of the corresponding institutions recorded in the blockchain is included in the transaction, and only the institutions with the context information satisfying the access tree included in the transaction are encrypted included in the transaction. You can access the data by decrypting the data.

In the existing general blockchain network, when data is propagated through a block in the form of a transaction, all participating nodes can check the data and receive an alarm. However, in a disaster situation, command and control should be tailored to the reporting system and disaster situation in the disaster response manual and only relevant agencies should be able to communicate. Therefore, the existing blockchain network in which all agencies can receive and verify data is not suitable for the blockchain network of the national disaster management system according to the present invention.

Accordingly, the blockchain network of the national disaster management system according to the present invention grants access rights by using an access tree, so that only an institution having context information satisfying the access tree can receive an alarm and access data.

1 is a national disaster management system according to a preferred embodiment of the present invention, the central administrative agency and public institutions of the government constitute a blockchain network, the agency that recognizes this through a disaster report such as crime or natural disaster It is a schematic diagram conceptually illustrating the process of creating a block in the form of a transaction by giving access to data and propagating it to a blockchain network.
FIG. 2 is a schematic diagram illustrating a process of storing context information of institutions participating in a blockchain network in a block in a transaction form and recording the same in a blockchain network in a national disaster management system according to an exemplary embodiment of the present invention. to be.
3 is a view illustrating an operation of an application that generates an alarm when each organization satisfies an access tree included in a transaction when a new block is created in a blockchain network in a national disaster management system according to an exemplary embodiment of the present invention. It is a flowchart showing the process sequentially.
FIG. 4 is a flowchart sequentially illustrating a process in which one agency transmits data to a blockchain network in a disaster situation and another agency receives and confirms data in a national disaster management system according to a preferred embodiment of the present invention.
FIG. 5 is a flowchart sequentially illustrating a process of retrieving data stored in a blockchain network for feedback after a disaster situation in a national disaster management system according to a preferred embodiment of the present invention.
6 and 7 exemplarily illustrate an access tree in a national disaster management system according to a preferred embodiment of the present invention.

The national disaster management system according to the present invention is first verified by DApps to participate in the blockchain network by the central administrative agencies of the governments involved in the disasters and the public agencies corresponding to the disasters. Context information such as address and affiliation is recorded on the blockchain.

In addition, the national disaster management system according to the present invention, by applying the Proof-of-Authority as a block generation agreement process, the identity is proved when all the organizations participate in the network, and becomes a validator that can verify and generate transactions and blocks. Rather, it does not waste computing power and speeds up generation because each node does not compete in generating blocks.

In addition, each institution in the national disaster management system according to the present invention has a private key and a public key, knows the public keys of all the organizations included in the blockchain network, and uses ECDSA for digital signatures. Use an algorithm. In addition, each agency in the national disaster management system according to the present invention generates a transaction including a disaster number, data encrypted using the CP-ABE algorithm to be transmitted in a disaster situation, and an access tree representing access authority information, Digitally sign the transaction by encrypting it with a private key. Collecting digitally signed transactions to create and propagate a block, all the organizations that propagate the block can decrypt the transaction with the public key of the agency that propagated the block, proving that the data propagation agency has sent the transaction. Results You can ensure authentication and non-repudiation, and verify encrypted data and access trees.

In addition, in the blockchain network of the national disaster management system according to the present invention, when all nodes install and execute an alarm application, when a newly generated block is propagated to the blockchain network, the public key of the institution that automatically created the block is used. Decrypt the transaction included in the block to check the access tree, and if the context information satisfies the access tree, an alarm sounds to enable the person in charge. Therefore, the institutions and departments having the context information satisfying the access tree receive the alarm, generate a secret key using their context information, and decrypt the encrypted cipher text using the CP-ABE algorithm to obtain the original text of the data.

In this way, command control, reporting, and communication between agencies in a disaster situation are quickly carried out in the blockchain network, and all transactions are stored in blocks, which ensures data integrity that cannot be forged / modulated, resulting in disaster situations. This ensures the reliability of which data is sent and received by which organization at what time.

Hereinafter, with reference to the accompanying drawings will be described in detail the structure and operation of the national disaster management system based on the blockchain according to a preferred embodiment of the present invention.

Figure 1 is a national disaster management system according to a preferred embodiment of the present invention, a blockchain network in which the servers of the central administration and public institutions of the government participates in the node, the disaster reporting such as crime or natural disaster This is a schematic diagram conceptually illustrating the process of creating a block in the form of a transaction and propagating it to a blockchain network by granting access rights to related data.

Referring to Figure 1, the national disaster management system according to the present invention, the server of the public administration, such as the central administrative agency of the government corresponding to the disaster and local governments, police, fire, military, medical care, etc. participating as a node The node corresponding to the agency that recognizes it through a disaster report, such as a crime or natural disaster, is provided to the data related to the disaster situation for the nodes corresponding to the agencies corresponding to the reporting system of the disaster. Grant access and create blocks in the form of transactions and propagate them to the blockchain network. The transaction includes an access tree with a disaster number, encrypted disaster related data and access rights information.

The agency that recognizes the disaster assigns a disaster number, constructs an access tree according to the reporting system of the disaster response manual, creates a transaction by encrypting the data encrypted using the access tree and CP-ABE with a private key and includes it in the block. It propagates to the blockchain network. The data is disaster related data, and includes information related to a disaster situation and image and image data.

The node that detects the occurrence of the disaster encrypts the data using its context information according to a Ciphertext-Policy Attribute Based Encryption (CP-ABE) algorithm and includes the data in a transaction.

The existing CP-ABE algorithm is characterized in that a third certification authority generates a secret key, but in the system according to the present invention, a public key and a master key for data encryption are generated for each node and recorded in a blockchain. Make sure all nodes can see it. Therefore, in the system according to the present invention, the node encrypts the data using the CP-ABE algorithm and includes it in a transaction to propagate it to the blockchain network, and the transaction receiving node is a master of the transaction generating node recorded in the blockchain network. A secret key may be generated using a key and context information of a transaction receiving node, and the original data may be obtained by decrypting the encrypted data using the generated secret key.

Meanwhile, an organization having context information that satisfies the access tree included in the transaction of the block may receive an alarm through an application for alarming, and may recognize that data has come to him, and an unsatisfactory organization may alarm. Do not receive.

The agency, which has recognized the fact that the data has been received through the alarm, generates a secret key using the master key of the transaction generating node and its context information stored in the blockchain network, and uses the generated secret key. By decrypting the encrypted data included in the transaction to obtain the original data.

Hereinafter, with reference to FIG. 2, nodes constituting a blockchain network of a national disaster management system according to the present invention will be described.

FIG. 2 is a schematic diagram illustrating a process of storing context information of institutions participating in a blockchain network in a block in a transaction form and recording the same in a blockchain network in a national disaster management system according to an exemplary embodiment of the present invention. to be.

Referring to FIG. 2, the national disaster management system according to the present invention has been verified and verified with the servers of the respective agencies in order to participate in the blockchain network as nodes with the servers of the central administrative and public agencies of the government corresponding to the disaster. After verifying this, the context information for each institution is recorded in the blockchain in the form of a transaction. By recording the context information for each node in the blockchain in this way, each institution is proved its identity in the blockchain network. Therefore, each node whose identity is verified can generate and verify a block by applying PoA (Proof-of-Authority), so if there is data that they want to send, they create a block by itself and send the data to the blockchain network. Can propagate to

The context information item for each node recorded in the blockchain according to the present invention may include an organization name, a department name, an address, affiliation, etc., as shown in FIG. 2, but is not limited to these items. The context information may vary depending on the situation. On the other hand, since the context information for each node recorded in the blockchain is recognized only in the latest in the timestamp order, it is desirable to modify the context information and record the new information in the blockchain.

Hereinafter, an operation of an alarm application executed at each node will be described in detail with reference to FIG. 3.

3 is a view illustrating an operation of an application for generating an alarm when each context satisfies an access tree included in a transaction when a new block is created in a blockchain network in a national disaster management system according to an exemplary embodiment of the present invention. It is a flowchart showing the process sequentially.

The alarm application according to the present invention is installed in each node, and as the newly created block is propagated in the blockchain network, it is automatically executed when the block is written in the blockchain of each node.

Referring to FIG. 3, first, when a new block is created and propagated in the blockchain network and recorded in the blockchain (step 300), a known transaction on the blockchain network is checked to identify an access tree included in the transaction within the block. The digital signature is decrypted with the generated public key (step 310). If not, it is regarded as an invalid transaction and the authentication is rejected (step 322).

When the transaction is decrypted (step 320), the access tree in the transaction is checked to determine whether its context information satisfies the access tree to determine whether to access the corresponding transaction (step 330).

If the context information of the user satisfies the access tree, an alarm is generated so that the person in charge of each organization can check the data generated in the disaster situation (step 340). Otherwise, the process ends without generating an alarm.

Hereinafter, with reference to Figure 4 in the national disaster management system according to the present invention, a process of verifying data by transmitting and receiving data to each node in a disaster situation will be described.

 FIG. 4 is a flowchart sequentially illustrating a process in which one agency transmits data to a blockchain network in a disaster situation and another agency receives and confirms data in a national disaster management system according to a preferred embodiment of the present invention.

Referring to FIG. 4, when data is transmitted by one organization such as propagating data by recognizing a disaster situation, commanding control descending from the situation room, communication of organizations made in response to the reporting disaster of each organization, and the like (step 400). In operation 410, the context information of the corresponding organizations is checked in the blockchain network so that only the organizations that should receive the data can access the data. The agencies that should receive the data may be set up by organizations included in a pre-set disaster response manual according to the disaster situation, in particular those included in the reporting system and the command control system according to the disaster response manual, Depending on the disaster situation, it may be added or excluded as appropriate.

Next, an access tree is constructed using the context information, and data is encrypted using CP-ABE (step 420). Next, digitally sign the disaster number, the encrypted data, and the access tree assigned by the agency that first recognized the disaster with a private key to create a transaction, construct a block, and propagate it to the blockchain network (step 430).

Through an alarm application installed and executed at each node, each authority verifies the propagated block and checks the access tree (step 440). Each node determines whether its context information satisfies the access tree included in the transaction (step 450).

If its context information satisfies the access tree, it generates an alarm (step 460), generates a secret key using its context information (step 470), and decrypts the data using the secret key. Obtain the original text (step 480).

If its context information does not satisfy the access tree, it terminates without generating an alarm and without accessing the data (step 452).

Hereinafter, a process of retrieving data in order to feed back disaster situation information after the disaster situation ends in the national disaster management system according to the present invention will be described.

FIG. 5 is a flowchart sequentially illustrating a process of retrieving data stored in a blockchain network for feedback after a disaster situation in a national disaster management system according to a preferred embodiment of the present invention.

Referring to FIG. 5, in the national disaster management system according to the present invention, all transactions occurring in a disaster situation include a disaster number assigned when the agency recognizes the disaster. Therefore, when the disaster situation is terminated (step 500), the disaster number to be fed back is checked (step 510), and the block chain is searched for the disaster number in the blockchain network to find a block and a transaction for the disaster (step 520). Transactions include disaster numbers, encrypted data and access trees.

Therefore, if the disaster number included in the transaction and the disaster number to be searched for are matched (step 530), the access tree included in the transaction is checked (step 540), and the context information of the authority represented in the access tree is used. A secret key is generated (step 550), and the encrypted data included in the transaction is decrypted using the secret key (step 560) to confirm a data generation time, a data generating authority, a data receiving authority, and data contents. (Step 570).

Since the data stored in the national disaster management system according to the present invention have self-authentication, non repudiation, and data integrity due to the characteristics of the blockchain, it has reliability in a feedback process.

6 and 7 exemplarily illustrate the access tree. The access tree shown in FIG. 6 illustrates a process in which a doctor accesses an access tree called a medical record and acquires an access right. Referring to FIG. 6, the context for a doctor is Job: Doctor, Field: Thoracic Surgery, Patient ID: Kevin_319091, and an access tree called a medical record is a doctor and a guardian who are authorized to access the medical record. Referring to FIG. 6, the doctor accesses an access tree called a medical record and satisfies all contexts, thereby successfully obtaining access authority. However, referring to FIG. 7, the nurse does not satisfy the "Job: doctor" context of the access tree and thus cannot gain access.

As such, by granting a context for each user or each node and generating an access tree for data, access rights of many users or nodes can be managed.

Although the present invention has been described above with reference to preferred embodiments thereof, it is only an example and is not intended to limit the present invention, and those skilled in the art do not depart from the essential characteristics of the present invention. It will be appreciated that various modifications and applications which are not illustrated above in the scope are possible. And differences relating to such modifications and applications should be construed as being included in the scope of the invention as defined in the appended claims.

Claims (11)

In the national disaster management system, which is a network of servers of pre-set government central administration and public institutions, networked to respond to disasters,
Has a blockchain network, in which servers of the central government and public institutions of the government, whose identity are verified, participate as nodes,
Nodes participating in the blockchain network stores and manages the blockchain, and context information of the nodes participating in the blockchain network is recorded in the block of the blockchain.
A node that wants to provide disaster related information about a preset disaster generates a transaction including a disaster number, encrypted data, and an access tree, digitally signs the generated transaction with its private key, and then signs It generates a block containing a transaction and propagates to the blockchain network,
The data is disaster related data,
The access tree is generated by using context information of nodes having access rights to a block including a corresponding transaction, and has access right information on encrypted data included in the corresponding transaction.
The nodes constituting the blockchain network include an alarm application that is automatically executed when a new block is generated and propagated in the blockchain network.
The alarm application,
Decrypt the transactions included in the block using the public key for the node that propagated the block,
Determine whether the context information of the node that received the block satisfies an access tree included in the decrypted transaction,
When the context information of the node receiving the block satisfies the access tree, an alarm is generated to the node receiving the block to inform that the disaster information has arrived.
Nodes constituting the blockchain network,
After the disaster, the national disaster based on the blockchain is characterized by retrieving the data stored in the blockchain based on the disaster number, so that the data occurrence time, data generation authority, data access authority, and data contents can be obtained. Management system. delete According to claim 1, The alarm application,
When the context information of the node that receives the block satisfies the access tree, an alarm is generated, and a secret key is generated using the context information of the node that receives the block, and the generated secret key is used. The national disaster management system based on the block chain, characterized in that to obtain the original data by decrypting the encrypted data included in the transaction. The system of claim 1, wherein the node that propagates the block encrypts disaster related data using its context information and includes the encrypted data in a transaction. . The system of claim 1, wherein the access tree included in the transaction is generated by using context information about corresponding organizations preset according to the type of disaster. delete In the national disaster management method using a blockchain network, in which servers of government-proven central government and public institutions, whose identity is proved, participate in nodes to respond to disasters,
(a) nodes participating in the blockchain network, recording context information about themselves in a block of a blockchain in the form of a transaction;
(b) Nodes wishing to provide disaster related information may generate a transaction including a disaster number, encrypted data and an access tree, digitally sign the generated transaction, and then generate a block including the transaction to generate the transaction. Propagating to a blockchain network;
(c) installing and executing an alarm application that is automatically executed when nodes constituting the blockchain network are generated and propagated in a blockchain network; And
(d) after the disaster, the node constituting the blockchain network retrieves the data stored in the blockchain based on the disaster number to obtain a data generation time, a data generation authority, a data access authority, and data contents. ;
Including;
The data is disaster related data,
The access tree is generated by using context information of nodes having access rights to a block including a corresponding transaction, and has access right information on encrypted data included in the corresponding transaction.
The alarm application,
Decrypt the transactions included in the block using the public key for the node that propagated the block,
Determine whether the context information of the node that received the block satisfies an access tree included in the decrypted transaction,
When the context information of the node receiving the block satisfies the access tree, an alarm is generated to the node receiving the block to notify that the disaster information has been received. . delete The method of claim 7, wherein the alarm application,
When the context information of the node that receives the block satisfies the access tree, an alarm is generated, and a secret key is generated using the context information of the node that receives the block, and the generated secret key is used. And decrypting the encrypted data included in the transaction to obtain a data original. The method of claim 7, wherein step (b),
Disaster-related data is encrypted using context information of a node creating a transaction, and the encrypted data is included in a transaction.


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