KR20200049353A - Apparatus and method for managing contents based on block chain - Google Patents

Abstract

According to an embodiment of the present invention, a blockchain-based content management method comprises the steps of: grouping participating nodes among a plurality of nodes into a plurality of groups from a management node among the plurality of nodes; dividing shared content into a plurality of sub-contents in the management node based on the number of the groups; assigning at least one of the plurality of sub-contents to each of the plurality of groups at the management node; and storing the assigned sub-content in each of the plurality of groups.

Description

Blockchain based content management device and method {APPARATUS AND METHOD FOR MANAGING CONTENTS BASED ON BLOCK CHAIN}

The present invention relates to a blockchain-based content management device and method for managing shared content based on blockchain technology.

Blockchain system is a system that processes a user's transaction by connecting a number of nodes to a peer-to-peer network, and can be considered as a distributed ledger system that sequentially stores records of transactions. The content recorded once in the distributed ledger has the characteristic that it is almost impossible to change.

In a blockchain system, everyone needs to have a record of processing for the same transaction, and it is the Consensus Algorithm that makes it possible. In Bitcoin, a system with the first blockchain technology applied, a method of selecting a Proof of Work (PoW) and a longest chain (Longest Chine) has been used as a consensus algorithm.

Meanwhile, the transaction recorded in the distributed ledger may include contract information between nodes constituting a network, log information of each node, and / or various content related information. In particular, as the blockchain technology is applied to various fields other than finance, various contents related information such as music and video may be registered in the distributed ledger.

Korean Patent Publication No. 10-2017-0137388 (released on December 13, 2017)

The problem to be solved by the present invention is to provide a blockchain-based content management apparatus and method for storing at least one of a plurality of sub-contents divided from shared content in each of a plurality of groups composed of participating nodes on a blockchain network. .

However, the problem to be solved by the present invention is not limited to those mentioned above, and another problem not to be solved can be clearly understood by a person having ordinary knowledge to which the present invention belongs from the following description. will be.

A blockchain-based content management method according to an embodiment includes: grouping a participating node among a plurality of nodes into a plurality of groups from a management node among a plurality of nodes; Dividing the shared content into a plurality of sub-contents in the management node based on the number of the groups; Assigning at least one of the plurality of sub-contents to each of the plurality of groups at the management node; And storing the assigned sub content in each of the plurality of groups.

The blockchain-based content management apparatus according to an embodiment groups participating nodes among a plurality of nodes constituting a network into a plurality of groups and divides the shared content into a plurality of sub-contents based on the number of the groups. A processor that allocates at least one of the plurality of sub-contents to each of the plurality of groups; And a communication unit transmitting the assigned sub content to each of the plurality of groups.

The blockchain-based content management apparatus and method according to an embodiment may increase the efficiency of storage space on a network and lower a storage space maintenance cost by distributing and storing shared content on a blockchain network. In addition, compared to the case of maintaining an external content storage server, the security of the blockchain network can be increased, and it is possible to easily check whether the shared content has been changed.

1 is a functional block diagram of a blockchain system according to an embodiment of the present invention.
2 is a functional block diagram for a content management device of a blockchain system according to an embodiment of the present invention.
3 is a flowchart of a content storage method among content management methods of a blockchain system according to an embodiment of the present invention.
4 is a diagram illustrating a grouping method of a blockchain system according to an embodiment of the present invention.
5 is a diagram illustrating a grouping method of a blockchain system according to another embodiment of the present invention.
6 is a view for explaining a method for storing sub content of a blockchain system according to an embodiment of the present invention.
7 is a flowchart of a content providing method among content management methods of a blockchain system according to an embodiment of the present invention.
8 is a view for explaining a method of providing content in the blockchain system of FIG. 6.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to completely inform the person having the scope of the invention, and the present invention is only defined by the scope of the claims.

In describing embodiments of the present invention, when it is determined that a detailed description of known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition should be made based on the contents throughout this specification.

1 is a functional block diagram of a blockchain system according to an embodiment of the present invention, and FIG. 2 is a functional block diagram of a content management device of a blockchain system according to an embodiment of the present invention.

Block chain system is a kind of distributed ledger system that records transaction information, and each of the plurality of nodes constituting the block chain system 100 has its own book With, each book can mean that the content remains the same. One entry recorded in the ledger is expressed as a transaction, and when a user who wants to write in the ledger creates a transaction and delivers it to a P2P network, nodes in the blockchain system 100 can collect it to create a block. . Since the blocks are chained to each other, ordered recording of transactions may be possible, and the instant of such a connected blockchain may mean one distributed ledger.

At this time, the identity of the distributed ledger may originate from the identity of the blockchain image of each node of the blockchain system 100. If a node in the center is dedicated to creating a block, the identity of the blockchain image can be maintained naturally. However, since the core of the blockchain technology is to provide trust without trusting a specific node, in the blockchain system 100, each node autonomously creates a block instead of a centralized method, but a separate agreement (Consensus) Through the process, a method in which all nodes finally have the same blockchain image can be used.

Meanwhile, the transaction registered in the distributed ledger shared in the blockchain system 100 may include contract information between nodes, log information for each node, and various content related information. In particular, as attempts to integrate blockchain technology into fields other than finance increase, various content related information such as music and video may be registered in the distributed ledger in the blockchain system 100. For example, when there is a request to record copyrighted content from a client or a request to read previously recorded content, a block containing the content may be registered in the distributed ledger.

If the content is a 1 GB video file, each node sharing the distributed ledger needs to store the same 1 GB video file. As such, unlike low-capacity information such as contracts or logs, when content with a relatively large capacity is managed on the network of the blockchain system 100, inefficiency of storage space in the network may occur. In addition, the cost of securing storage space for storing a large amount of content may also increase.

In this regard, only the hash value of the content may be registered in the distributed ledger, and content corresponding to the registered hash value may be stored in a separate content storage server. However, if an independent server for storing content is separately provided, the security of the blockchain system 100 may be weak. Blockchain technology can secure security by sharing the same distributed ledger on multiple nodes, but it is difficult to block the possibility of changes to the original content if the original content is managed independently.

In addition, the content storage server may be configured as a blockchain network N to increase security, but additional maintenance and management costs may occur. In addition, since the hash value is only a value for determining whether or not the content has been changed, it may be difficult to check the original content of the changed content.

To solve this, the blockchain system 100 according to an embodiment of the present invention may be implemented to divide a plurality of nodes on the network N into an arbitrary group and to store a part of shared content for each group.

Referring to FIG. 1, the blockchain system 100 according to an embodiment of the present invention may include a blockchain network N composed of a plurality of nodes. Each of the plurality of nodes means a terminal including a communication module capable of configuring a wired / wireless network N, and includes a personal computer (PC), a laptop (Laptop), a tablet PC (tablet PC), a smart phone, etc. It may include, and may be configured as a server or a collection of a plurality of servers in addition to the personal terminal. In addition, the blockchain network N is configured according to a wired / wireless communication method adopted by a communication module provided in each of a plurality of nodes, and may include a local area network (LAN) and / or a wide area network (WAN).

A distributed ledger may be stored in each of the plurality of nodes constituting the blockchain network N. In addition, these nodes can register a block consisting of the accumulated transactions through the mutual agreement process when the transactions accumulate above a threshold to the distributed ledger. For example, when a predetermined period has elapsed, any one of a plurality of nodes may generate a transaction accumulated during the period as one block. The generated block may be composed of a block header and block contents including actual transaction content. When a block is generated, consensus between a plurality of nodes may be performed using a block header as a parameter among the generated blocks.

The blockchain system 100 of the present invention can adopt various known consensus algorithms for consensus among a plurality of nodes. For example, the blockchain system 100 according to an embodiment proves the work of performing the consensus process by proving that nodes wishing to generate a block have performed a task of a specific difficulty by performing an operation to find a specific hash value (PoW : Proof of Work (Proof of Stake), similar to Proof of Work, but Proof of Stake (PoS), in which the ownership interest of the node is reflected in the block generation right, Blockchain the consensus algorithm of the State Machine Replication System Byzantine Fault Tolerance (BFT) series algorithm applied to the technology, Proof of Elapsed Time (PoET) randomly selecting a leader among a large number of nodes using CPU instructions, and Sharding that enables parallel processing of transactions ) By adopting at least one of the techniques, consensus between a plurality of nodes can be performed.

Meanwhile, the plurality of nodes of the blockchain network N may determine the management node P and the participating node B through a smart contract. That is, according to the smart contract, a plurality of nodes in the blockchain network N can be divided into a management node P managing the environment of the entire network N including the policies of the blockchain network N and a participating node B managed according to the policy. have. At this time, the participating node B may be all or part of a plurality of nodes other than the management node P. In the former case, it may be implemented in the public blockchain system 100, and in the latter case, in the private blockchain system 100. 1 illustrates a public blockchain system 100 in which a blockchain network N is implemented with one management node P and five participating node B.

The management node P according to an embodiment may be implemented by the content management device 110. 2, the content management device 110 includes a processor 111; And it may include a communication unit 112.

The communication unit 112 can communicate with clients and other nodes on the blockchain network N. For example, the communication unit 112 may receive a content registration request and / or content provision request from a client, and may transmit the content requested for registration to the participating node B and / or sub-content divided from the content.

The processor 111 can manage the overall environment of the blockchain network N according to the policy. At this time, the policy may be determined by a smart contract with participating node Bs when constructing the blockchain network N. The processor 111 according to an embodiment may monitor the state of the blockchain network N, and may also monitor the state of each of the participating node Bs through the communication unit 112. Further, the processor 111 may share content with a plurality of nodes on the blockchain network N according to a client request, or provide content shared with a plurality of nodes to the client.

Referring to FIG. 1 again, the participating node B may be managed by the management node P according to the policy. In particular, when a content registration request is received from the client, the participating node B may be managed by the management node P to store the sub content of the content requested to be registered.

Hereinafter, a method of managing content in the blockchain system 100 will be described with reference to FIGS. 3 to 6.

3 is a flowchart of a content storage method among content management methods of a blockchain system according to an embodiment of the present invention, and FIG. 4 is a diagram illustrating a grouping method of a blockchain system according to an embodiment of the present invention, FIG. 5 is a diagram illustrating a grouping method of a blockchain system according to another embodiment of the present invention, and FIG. 6 is a diagram for explaining a method for storing sub-contents of a blockchain system according to an embodiment of the present invention.

Referring to FIG. 3, the blockchain system 100 according to an embodiment of the present invention may first group a plurality of participating Node Bs into a plurality of groups (S100). Specifically, the management node P of the blockchain system 100 may group a plurality of participating nodes B into a plurality of groups according to a smart contract made in advance.

At this time, the smart contract made in advance is concluded between the management node P and the plurality of participating nodes B, and may be made to be grouped according to various methods for achieving optimal content management efficiency. For example, each of the plurality of participating nodes B including the geographic location for accessing the network N of each of the plurality of participating nodes B, the processing speed of each of the plurality of participating nodes B, the storage space of each of the plurality of participating nodes B, and the like. A smart contract may be made based on the performance information of the blockchain network N, including the performance information, the traffic speed of the blockchain network N, and the latency of the blockchain network N.

FIG. 4 illustrates a case where five participating node Bs are grouped into three groups G ₁ , G ₂ , and G ₃ . At this time, each group can share at least one participating node B with another group. 4, the group G ₁ may share a group G ₂ and the one of the participating nodes B and group G ₂ is sharing group G ₃ and one Node B involved.

4 illustrates a case where only the participating node B is grouped, the grouping method is not limited thereto. The management node P of the blockchain system 100 according to another embodiment may be grouped together with a plurality of participating nodes B. Referring to FIG. 5, it can be seen that the management node P is grouped to belong to the group G ₃ together with the two participating node B. In this case, the management node P may manage the overall environment of the blockchain network N and concurrently perform operations of the plurality of participating node Bs.

Referring to FIG. 3 again, the blockchain system 100 may divide the shared content into a plurality of sub-contents based on the number of groups (S110). Prior to this, a request for registration of shared content may be received from a client at any one of a plurality of nodes of the blockchain system 100. At any one of the plurality of nodes, a block including a transaction for registering shared content may be generated, and agreement between the plurality of nodes may be made on the generated block. When an agreement is reached, the generated block can be registered in the distributed ledger shared by a plurality of nodes, and each participating node B needs to store shared content according to the block registration.

As described above, when all the participating nodes B store the entire shared content, the efficiency of the blockchain network N decreases, and the maintenance cost increases, which is not preferable. Therefore, the management node P of the blockchain system 100 can divide the shared content into a plurality of sub-contents and store it in the participating node B.

At this time, the management node P may divide the shared content into a plurality of sub-contents based on the number of grouped groups. Specifically, the management node P may divide the sub content into a number greater than the number of groups grouped by the shared content. As a result, each group can share at least one sub-content with another group.

Meanwhile, the management node P according to an embodiment may divide the shared content into a plurality of sub-contents of the same capacity, or divide the playable shared content into a plurality of sub-contents of the same playback time. However, the shared content division method is not limited to this, and the management node P may divide the shared content into a plurality of sub-contents according to various methods for achieving optimal content management efficiency. For example, the management node P may divide the shared content into a plurality of sub-contents based on the property information of the content, including content type, frame number, resolution, sound quality, format, and the like.

Finally, the blockchain system 100 may store at least one of a plurality of sub-contents in each of a plurality of groups (S120). To this end, the blockchain system 100 may allocate at least one of a plurality of sub-contents to each of a plurality of groups. Specifically, the management node P of the blockchain system 100 may allocate a plurality of sub-contents to each of a plurality of groups according to various methods for achieving optimal content management efficiency.

For example, the management node P includes a plurality of participating nodes B including a geographic location for accessing each network N, a plurality of participating nodes B, a computational processing speed, a plurality of participating nodes B, a storage space, and the like. Performance information of Blockchain Network N, including performance information of each Node B, traffic speed of Blockchain Network N, and latency of Blockchain Network N, and types, content, number of frames, resolution, sound quality, format, etc. A plurality of sub-contents can be assigned to each of the plurality of groups based on the attribute information of the content to be played.

When sub-contents are allocated to each group, the blockchain system 100 may store sub-contents allocated to each of a plurality of groups. In addition, each of the plurality of nodes of the blockchain system 100 registers a block including a transaction of allocation and storage of sub-contents for each of the plurality of groups to the distributed ledger, thereby obtaining information about the sub-contents assigned to each of the groups. Share it.

6 illustrates a case where the shared content is divided into sub content S ₁ , S ₂ , and S ₃ . Referring to FIG. 6, the management node P allocates and stores the sub content S ₁ in the group G ₁ , stores it by allocating the sub content S ₂ in the group G ₂ , and stores it by allocating the sub content S ₃ in the group G ₃ . Can be.

At this time, even if the participating node B belonging to one group does not operate normally, a plurality of groups may store the same sub content or distributed storage of shared content may be performed by at least one participating node B belonging to the plurality of groups. .

In addition, a plurality of nodes belonging to the same group can share information about sub-contents stored in a plurality of nodes belonging to the same group by registering a block containing transactions of allocation and storage of sub-contents for the group to the distributed ledger. Can be.

At this time, a distributed ledger shared by a plurality of nodes belonging to the same group and a distributed ledger shared by all nodes of the blockchain system 100 may be integrated and managed as a single distributed ledger, or, alternatively, as a separate distributed ledger It can also be managed separately. If the distributed ledger for each group is managed separately from the distributed ledger for the entire blockchain system 100, the distributed ledger for each group may be agreed according to the same algorithm as the consensus algorithm for the distributed ledger for the entire blockchain system 100. However, it may be agreed upon according to different algorithms.

According to the method described so far, the storage space required for each of the plurality of participating nodes B to store the shared content on the network N of the blockchain system 100 is reduced, thereby increasing the efficiency of the network N and the maintenance cost. Can decrease.

Meanwhile, the management node P of the blockchain system 100 may monitor the status of the blockchain network N and the participating node B subscribed to the network N at predetermined intervals. Specifically, the management node P includes a plurality of participating nodes including a geographical location for accessing the network N of each of the plurality of participating nodes B, a processing speed of each of the plurality of participating nodes B, a storage space of each of the plurality of participating nodes B, and the like. B Performance information of Blockchain Network N, including performance information of each, traffic speed of Blockchain Network N, and latency of Blockchain Network N, and information of participating Node B who joined and / or left Blockchain Network N. Can be monitored.

If it is determined that the monitoring result needs to be re-grouped, the management node P may newly group a plurality of participating nodes B based on the monitoring result. Here, the need to redo the grouping may mean a case in which a state in which a grouping that is more improved than the existing grouping result is possible is detected by monitoring. Through this, the blockchain system 100 can perform grouping to increase network N efficiency in real time.

So far, the method of storing sub-contents in each of a plurality of groups among the blockchain-based content management methods has been described through FIGS. 3 to 6. Hereinafter, a method of providing shared content to a client based on sub-contents stored in each of a plurality of groups will be described with reference to FIGS. 7 and 8.

7 is a flowchart of a content providing method among content management methods of a blockchain system according to an embodiment of the present invention, and FIG. 8 is a diagram illustrating a content providing method of the blockchain system of FIG. 6.

Referring to FIG. 7, the blockchain system 100 according to an embodiment of the present invention may first check whether a request for providing shared content is received from a client (S200). At this time, the request for providing the shared content may be received by either the management node P on the blockchain network N or a plurality of participating node B.

If the request for providing the shared content has not been received, the blockchain system 100 can repeatedly check this.

On the other hand, if a request for providing shared content is received, the blockchain system 100 may receive a plurality of sub-contents from at least one participating node B of each of the plurality of groups (S210). Specifically, the management node P of the blockchain system 100 may receive the assigned sub content from the participating node B belonging to each of a plurality of groups.

Referring to FIG. 8, the management node P receives sub content S ₁ from at least one participating node B of group G ₁ , receives sub content S ₂ from at least one participating node B of group G ₂ , and group G of ₃ from at least one participating node B can receive the sub-content, it S _3.

Next, the blockchain system 100 may restore the shared content based on the received plurality of sub content (S220). As described through FIG. 3, since a plurality of sub-contents are divided from the shared content, the management node P of the blockchain system 100 can receive all the sub-contents from each group and restore one shared content. have.

At this time, a plurality of nodes belonging to the same group may sign a smart contract as to which participating node B will transmit the sub content in response to the request of the management node P. As a result, according to a smart contract concluded in each of the plurality of groups, the management node P may receive a plurality of sub-contents from at least one participating node B predetermined in the plurality of groups.

In addition, each of the plurality of nodes of the blockchain system 100 registers a block including a transaction of sub-content transmission in each of the plurality of groups in the distributed ledger, thereby information on the sub-content transmitted from each group to the management node P To share. In addition, a plurality of nodes belonging to the same group, by registering a block containing a transaction of sub-content transmission in the group to the distributed ledger, the sub-content transmitted from at least one participating node B predetermined by the smart contract in the same group Share information about.

As described above, a distributed ledger shared by a plurality of nodes belonging to the same group and a distributed ledger shared by all nodes of the blockchain system 100 may be integrated and managed as a single distributed ledger, and, unlike this, separate distributed ledgers It can also be managed separately as a ledger. If the distributed ledger for each group is managed separately from the distributed ledger for the entire blockchain system 100, the distributed ledger for each group may be agreed according to the same algorithm as the consensus algorithm for the distributed ledger for the entire blockchain system 100. However, it can be agreed according to different algorithms as described above.

Finally, the blockchain system 100 may provide the restored shared content to a client requesting to provide the shared content (S230). At this time, the managed node P may directly provide the shared content to the client, or may provide the shared content to the client through the participating node B receiving the request for providing the shared content.

Meanwhile, in another embodiment, in response to the request for providing the shared content received from the client, the management node P may request that at least one participating node B of each of the plurality of groups transmit sub content to the client. Participating Node Bs included in each group (G1 to G3) receiving such a request can enter into a smart contract on which participating Node B will transmit the sub content and transmit the sub content to the client according to the result, and the sub content The block containing the transaction of transmission can be registered in the distributed ledger within each group or in the distributed ledger shared by all nodes.

The blockchain-based content management apparatus and method according to the above-described various embodiments can improve the efficiency of storage space on the network and lower the storage space maintenance cost by distributing and storing shared content on the blockchain network. In addition, compared to the case of maintaining an external content storage server, the security of the blockchain network can be increased, and it is possible to easily check whether the shared content has been changed.

Meanwhile, each step included in the blockchain-based content management method according to the above-described embodiment may be implemented in a computer program programmed to perform these steps or a computer-readable recording medium recording a computer program.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential quality of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

According to an embodiment, the above-described blockchain-based distributed ledger management method may be used in various fields, such as a home or an industrial site, and thus has a potential for industrial use.

100: blockchain system
110: content management device
111: processor
112: communication department

Claims (17)

Grouping participating nodes among the plurality of nodes into a plurality of groups from a management node among a plurality of nodes;
Dividing the shared content into a plurality of sub-contents in the management node based on the number of the groups;
Assigning at least one of the plurality of sub-contents to each of the plurality of groups at the management node; And
And storing the assigned sub content in each of the plurality of groups.
Blockchain-based content management method. According to claim 1,
The method further includes registering a block including a transaction corresponding to storing the allocated sub content in each of the plurality of groups in a distributed ledger shared by the plurality of nodes.
Blockchain-based content management method. According to claim 1,
Storing at least one of the plurality of sub-contents,
Storing at least one of the sub-contents stored in any one of the plurality of groups in at least one of the rest of the plurality of groups
Blockchain-based content management method. According to claim 1,
Grouping the participating nodes into a plurality of groups,
Grouping the participating nodes to share at least one participating node in at least two of the plurality of groups
Blockchain-based content management method. According to claim 1,
The step of allocating at least one of the plurality of sub-contents,
Allocating the sub content to each of the plurality of groups by referring to at least one of the attribute information of the shared content, performance information of each of the plurality of participating nodes, and performance information of a network to which the plurality of participating nodes are subscribed.
Blockchain-based content management method. According to claim 1,
Further comprising the step of monitoring the status of the network to which the plurality of participating nodes and the plurality of participating nodes are subscribed to in the management node,
Grouping the participating nodes into a plurality of groups,
And performing the grouping again based on the monitoring result.
Blockchain-based content management method. According to claim 1,
Receiving a request for providing shared content from a client, receiving the plurality of sub-contents from at least one participating node of each of the plurality of groups at the management node; And
The management node further includes providing the shared content corresponding to the received plurality of sub-contents to the client,
The step of receiving the plurality of sub-contents,
Receiving the plurality of sub-contents from the at least one participating node determined by a smart contract concluded in each of the plurality of groups
Blockchain-based content management method. The method of claim 7,
The method further includes registering a block including a transaction for the sub-content transmission for each group in a distributed ledger shared by the plurality of participating nodes belonging to the same group.
Blockchain-based content management method. Participating nodes among a plurality of nodes constituting a network are grouped into a plurality of groups, and shared content is divided into a plurality of sub-contents based on the number of the groups, and the plurality of sub-contents are respectively assigned to the plurality of groups. A processor to allocate at least one of the; And
And a communication unit transmitting the assigned sub content to each of the plurality of groups.
Blockchain-based content management device. The method of claim 9,
The processor,
Further comprising the step of sharing a distributed ledger in which a block including a transaction corresponding to storing the allocated sub content in each of the plurality of groups is registered.
Blockchain-based content management device. The method of claim 9,
The processor,
Assigning at least one of the sub-contents assigned to any one of the plurality of groups to at least one of the rest of the plurality of groups
Blockchain-based content management device. The method of claim 9,
The processor,
Grouping the participating nodes to share at least one participating node in at least two of the plurality of groups
Blockchain-based content management device. The method of claim 9,
The processor,
Determining the sub content to be stored in each of the plurality of groups by referring to at least one of attribute information of the shared content, performance information of each of the plurality of participating nodes, and performance information of a network to which the plurality of participating nodes are subscribed.
Blockchain-based content management device. The method of claim 9,
The processor,
And monitoring the states of the plurality of participating nodes and the network, and redoing the grouping based on the monitoring results.
Blockchain-based content management device. The method of claim 9,
The communication unit,
When a request for providing shared content is received from a client, the plurality of sub-contents are received from at least one participating node determined by a smart contract in each of the plurality of groups,
The processor,
Restoring the shared content based on the received plurality of sub-contents, and controlling the communication unit to provide the restored shared content to the client
Blockchain-based content management device. A program stored on a computer-readable recording medium, performing each step according to the method of claim 1. A computer-readable recording medium in which a program including instructions for performing each step according to the method of any one of claims 1 to 8 is recorded.

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