KR102173695B1 - Apparatus and method for excahnge between heterogeneous network and system using the same - Google Patents

Abstract

Disclosed are an apparatus and method for exchanging data between heterogeneous networks, and a system for exchanging data using the same. The present invention may provide an apparatus and method for exchanging data between heterogeneous networks with high efficiency, high performance and high reliability, which facilitates tracking when an abnormality occurs in data by recording at least one event related to data processing in a distributed ledger by transmitting encrypted data transmitted from a data transmission device connected to a first network to a data reception device connected to the second network by a data exchange device located on a distributed-ledger-based network, and provides guaranteed data integrity by decrypting the encrypted data by the data reception device and changing the property of the decrypted data to be compatible with the second network.

Description

Data exchange device and method between heterogeneous networks, and data exchange system using the same {APPARATUS AND METHOD FOR EXCAHNGE BETWEEN HETEROGENEOUS NETWORK AND SYSTEM USING THE SAME}

The present invention relates to an apparatus and method for exchanging data between heterogeneous networks, and to a data exchange system using the same, and more particularly, by using a distributed ledger, security is improved when exchanging data between heterogeneous networks. A data exchange apparatus and method, and a data exchange system using the same.

With the recent development of network communication technologies such as Internet of Thing and artificial intelligence (AI), network attacks using Stunxnet worms and network security threats such as leakage of user personal information and confidential business information The frequency of occurrence is also increasing.

As the importance of network security emerges, today, as an alternative to preventing data leakage and strengthening security, the government mandates the application of network separation technology to public institutions and workplaces of a certain size or larger.

Network separation technology is a technology that separates an external network and a business network, and is largely divided into physical network separation and logical network separation technology.

Here, the physical network separation technology is a technology for physically separating a network so that terminals are provided separately for each network, so that a network other than the corresponding network is not connected at all. Such physical network separation has a disadvantage in that it consumes a lot of time and physical cost because it is necessary to provide an individual terminal for each network.

The logical network separation technology is a technology that logically separates the network, and the structure of the technology is somewhat different depending on the type of server-based computing (SBC) and client-based (CBC).

For example, in the case of server-based virtualization network separation technology, a virtualization server is used to access an external network. As a result, it is possible to easily access various user environments and has the advantage that management and control are useful, while a large-scale server farm consisting of virtualization servers is required, and restrictions and errors according to server performance are required. Can occur.

Meanwhile, client-based virtualization network separation is a method of virtualizing network terminals and separating them for each network. Client-based virtualization network separation has the advantage of low temporal and physical cost. However, the conventional client-based virtualization network separation has a disadvantage that it is difficult to be compatible with various PC environments and is exposed to the outside when data is transmitted between individual network areas, thereby causing data transformation.

An object of the present invention for solving the above problems is to provide a data exchange device having high efficiency, high reliability and high safety.

In addition, another object of the present invention for solving the above problems is to provide a data exchange method having high efficiency, high reliability and high safety.

In addition, another object of the present invention for solving the above problems is to provide a data exchange system having high efficiency, high reliability and high safety.

As one of a plurality of data exchange devices provided in a network environment based on a distributed ledger according to an embodiment of the present invention for achieving the above object, a data exchange device that exchanges data between heterogeneous networks is a distributed ledger. , A memory and a processor that executes at least one instruction stored in the memory, wherein the at least one instruction is an instruction to receive data from a data transmission device connected to a first network, the distribution An instruction to transmit the received data to a data receiving device connected to the second network through another data exchange device provided on the ledger-based network, and at least one event performed in connection with the processing of the data. ) To be recorded in the distributed ledger, and an instruction to share the at least one event with the plurality of data exchange devices.

Here, data received from the data transmission device may be encrypted using a public key infrastructure (PKI).

In addition, the data exchange device may be located closest to the first network among the plurality of data exchange devices.

In addition, the other data exchange device may be located closest to the second network among the plurality of data exchange devices.

One of a plurality of data exchange devices provided in a network environment based on a distributed ledger according to another embodiment of the present invention for achieving the above object, including a memory and a processor, and data between heterogeneous networks A data exchange method using a data exchange device for exchanging is the step of receiving data from a data transmission device connected to a first network, and the received data through another data exchange device provided on the distributed ledger-based network. , Transmitting to a data receiving device connected to a second network, recording at least one event performed in connection with the processing of the data in the distributed ledger, and the plurality of data exchange devices and the at least one And sharing the event.

Here, data received from the data transmission device may be encrypted using a public key infrastructure (PKI).

Also, among the plurality of data exchange devices, it may be located closest to the first network.

In addition, the other data exchange device may be located closest to the second network among the plurality of data exchange devices.

In order to achieve the above object, a data exchange system for exchanging data between heterogeneous networks according to another embodiment of the present invention includes a data transmission device connected to a first network, and a plurality of data exchanges provided in a distributed ledger-based network environment. As one of the devices, a data exchange device for receiving data transmitted from the data transmission device and a data receiving device connected to a second network and for receiving data transmitted from the data exchange device.

In this case, the data transmission device may transmit encrypted data to the data exchange device.

In addition, the data exchange device may include a first data exchange device located closest to a first network among the plurality of data exchange devices, and a second data exchange device located closest to a second network among the plurality of data exchange devices. Device.

Here, the data transmission device transmits data to the first data exchange device close to the first network, and the first data exchange device exchanges a second data close to the second network among the plurality of data exchange devices. It is possible to search for a device and pass the data to the second data exchange device.

In addition, the data exchange device may record at least one event related to the processing of the data generated by the data transmitting device and the data receiving device, including a distributed ledger, in the distributed ledger.

In this case, the data exchange device may share the at least one event by sharing the distributed ledger with the plurality of data exchange devices.

In addition, the data receiving device may check the distributed ledger of the data exchange device and receive only verified data among data received from the data exchange device.

In this case, the data receiving device may decrypt the encrypted data received from the data exchange device.

In addition, the data receiving device may modify the properties of the received data to be compatible with the second network.

A data receiving device connected to a second network according to another embodiment of the present invention for achieving the above object, and receiving data transmitted from a heterogeneous first network, includes a memory and at least one stored in the memory. A processor for executing an instruction, wherein the at least one instruction is an instruction for receiving encrypted data transmitted from the first network by a data exchange device provided to a distributed ledger-based network environment, the Command to verify the reliability of encrypted data using the distributed ledger of the data exchange device, command to decrypt the encrypted data when verification is complete, to modify the properties of the decrypted data to be compatible with the second network Includes an order to do.

In addition, the data receiving device may further include a command to transmit at least one data processing event generated when the at least one command is executed to the data exchange device.

At this time, the transmitted data processing event may be recorded in the distributed ledger and shared with a plurality of data exchange devices provided in the distributed ledger-based network environment.

An apparatus and method for exchanging data between heterogeneous networks, and a data exchanging system using the same, transfers encrypted data transmitted from a data transmission device connected to a first network to a second by a data exchange device located on a distributed ledger-based network. By transmitting to the data receiving device connected to the network, at least one event related to data processing is recorded on the distributed ledger, so that it is easy to track when data is abnormal, the data receiving device decrypts the encrypted data, and the properties of the decrypted data By changing the data to be compatible with the second network, an apparatus and method for exchanging data between heterogeneous networks of high efficiency, high performance and high reliability, and a data exchange system using the same, can be provided.

1 is a conceptual diagram illustrating a data exchange system according to an embodiment of the present invention.
2 is a block diagram illustrating a data exchange system according to an embodiment of the present invention.
3 is a flowchart illustrating a data exchange method according to an embodiment of the present invention.

In the present invention, various modifications may be made and various embodiments may be provided, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals have been used for similar elements.

Terms such as first, second, A, and B may be used to describe various elements, but the elements should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element. The term "and/or" includes a combination of a plurality of related stated items or any of a plurality of related stated items.

When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. Should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively attribute meaning unless explicitly defined in this application. Does not.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, in order to facilitate an overall understanding, the same reference numerals are used for the same elements in the drawings, and duplicate descriptions for the same elements are omitted.

1 is a conceptual diagram illustrating a data exchange system according to an embodiment of the present invention.

Referring to FIG. 1, the data exchange system may be a system for exchanging data between different types of networks. More specifically, the data exchange system may be a system that transmits and receives data between independent networks separated by a network using a plurality of data exchange devices based on a distributed ledger.

According to an embodiment, the data exchange system may include a data transmission device 1000, a data reception device 3000, and a plurality of data exchange devices 5000.

Each of the components 1000, 3000, and 5000 of the data exchange system will be described in more detail with reference to FIG. 2 below.

2 is a block diagram illustrating a data exchange system according to an embodiment of the present invention.

Referring to FIG. 2, the data transmission device 1000 may be a client device connected to a first network that is an independent network.

In more detail, according to an embodiment, the data transmission apparatus 1000 may be connected to a logically separated first network. For example, the first network may be an independent network separated by a Client Based Computing (CBC) method. Since the client-based virtualization network separation method is a well-known technology easily known to those skilled in the art, a detailed description will be omitted.

The data transmission device 1000 may interwork with any one of a plurality of data exchange devices 5000 to be described later. According to an embodiment, the data transmission device 1000 may interwork with the first data exchange device 5000A, which is located near the first network.

Accordingly, the data transmission device 1000 may transmit at least one data received from the first network to the first data exchange device 5000A.

In this case, the data transmission device 1000 may encrypt the data and transmit it to the first data exchange device 5000A. According to an embodiment, the data transmission device 1000 may encrypt the data by using public key infrastructure (PKI) encryption.

More specifically, when performing encryption based on a public key (PKI), the data transmission device 1000 signs data using a private key, and the data reception device 3000 as a destination It can be encrypted with the public key of ). Thereafter, the data transmission device 1000 may transmit the encrypted data to the first data exchange device 5000A, which will be described later.

Accordingly, the data transmission device 1000 of the data exchange system according to an embodiment of the present invention transmits the data on the first network to be transmitted to the second network, the public key of the data receiving device 5000 as a destination. ), it is possible to prevent forgery or falsification of data that may occur during data movement.

Looking at the data transmission device 1000 in more detail for each configuration, the data transmission device 1000 may include a memory 1100 and a processor 1500.

According to the embodiment, as described above, the memory 1100 and the processor 1500 of the data transmission apparatus 1000 may be virtualized components.

More specifically, the memory 1100 may include at least one instruction for executing the processor 1500 to be described later.

According to an embodiment, the at least one command includes a command to receive a request for data and data transmission from a first network, a command to search for a first data exchange device 5000A to be described later, and data received from the first network. It may include any one of commands for encrypting and transmitting the data to the first data exchange device 5000A.

As described above, the processor 1500 may be executed by at least one instruction in the memory 1100. Since the execution of the processor 1500 is duplicated as disclosed in the description of the memory 1100, it will be omitted here.

Referring back to FIG. 1, the data receiving device 3000 may be a client device connected to a second network which is an independent network.

In more detail according to the embodiment, the data receiving device 3000 may be connected to a logically separated second network, like the data transmitting device 1000 described above. For example, the second network, like the first network described above, may be an independent network separated by a client-based virtualization network separation (CBC) method.

The data receiving device 3000 may be interlocked with any one of a plurality of data exchange devices 5000 to be described later, like the data transmission device 1000 described above. According to an embodiment, the data receiving device 3000 may interwork with the second data exchange device 5000B located in a location close to the second network.

Accordingly, the data receiving device 3000 may receive at least one piece of data received from the second data exchange device 5000B.

In this case, the at least one piece of data may be data encrypted by the data transmission device 1000 as described above. Accordingly, the data receiving device 3000 may decrypt the encrypted data using a public key.

In addition, the data receiving device 3000 may convert a property of received data. According to an embodiment, the data receiving device 3000 may convert the attribute of the data so that the received data is compatible with the second network.

Accordingly, the data receiving apparatus 3000 of the data exchange system according to an embodiment of the present invention is easily compatible even when transmitting data between heterogeneous networks, and thus a high-performance data exchange system can be provided.

Looking at the data receiving device 3000 in more detail for each configuration, the data receiving device 3000 may include a memory 3100 and a processor 3500. According to an embodiment, as described above, the memory 3100 and the processor 3500 of the data receiving device 3000 may be virtualized components.

More specifically, the memory 3100 may include at least one instruction for executing the processor 3500 to be described later.

According to an embodiment, the at least one command is a command to receive at least one encrypted data, a command to convert the at least one data attribute for compatibility with a second network, and occurs when the data attribute is converted It may include any one of commands for transmitting at least one data processing event to be described later to the second data exchange device 5000B.

As described above, the processor 3500 may be executed by at least one instruction in the memory 3100. A detailed description of the processor 3500 will be omitted since it is redundant with the description of the memory 3100 mentioned above.

A plurality of data exchange devices 5000 may be connected to a distributed ledger-based network. In other words, the data exchange device 5000 may be one of a plurality of data exchange devices connected to a distributed ledger-based network.

Multiple data exchange devices may individually include a Distribute Ledger. According to an embodiment, a plurality of data exchange devices 5000 including a Distribute Ledger may be located on a Blockchain network.

Here, the distributed ledger may be a digital ledger that records at least one data processing event. For example, a history of at least one processing event related to data transmission may be recorded in the distributed ledger.

Thereafter, the plurality of data exchange devices 5000 may share at least one data processing event recorded in a separate distributed ledger with each other.

A plurality of data exchange devices 5000 according to an embodiment of the present invention are provided in a distributed ledger-based network environment, and share at least one data processing event recorded in an individual distributed ledger with each other. In case of falsification or alteration of data, it is easy to trace back, and high-reliability data transmission may be possible.

At least one data exchange device 5000 participating in a distributed ledger-based network may interwork with the data transmission device 1000 and the data reception device 3000.

More specifically, according to an embodiment, a network based on a distributed ledger may include a first data exchange device 5000A and a second data exchange device 5000B. In other words, the first data exchange device 5000A and the second data exchange device 5000B may be provided on the same distributed ledger-based network.

The first data exchange device 5000A may be located adjacent to the first network.

As described above, the first data exchange device 5000A may interwork with the data transmission device 1000 connected to the first network. Accordingly, the first data exchange device 5000A may receive at least one encrypted data from the data transmission device 1000.

The first data exchange device 5000A is at least one encrypted in the second data exchange device 5000B located adjacent to the second network among other data exchange devices located on the same distributed ledger-based network. Can pass data. A method of transmitting at least one encrypted data from the first data exchange device 5000A to the second data exchange device 5000B will be described in more detail when describing the data exchange method to be described later.

The second data exchange device 5000B may be located adjacent to the second network.

As described above, the second data exchange device 5000B may interwork with the data receiving device 5000 connected to the second network. Accordingly, the second data exchange device 5000B may transmit at least one encrypted data transmitted from the first data exchange device 5000A to the data receiving device 5000.

When the data exchange device 5000 is described in more detail for each detailed configuration, the data exchange device 5000 may include a memory 5100 and a processor 5500.

The memory 5100 may include at least one instruction for executing the processor 5500 to be described later.

According to an embodiment, the at least one command is a command to receive data from a data transmission device connected to the first network, and the received data is transmitted through another data exchange device provided on the distributed ledger-based network. , A command to transmit to a data receiving device connected to a second network, a command to record at least one event performed in connection with the processing of the data in the distributed ledger, and the plurality of data exchange devices and the It may include an instruction to share at least one event.

As described above, the processor 5500 may be executed by at least one instruction in the memory 5100. A method of exchanging data by operation of the processor 5500 will be described in more detail in FIG. 3 below.

In the above, a data exchange system according to an embodiment of the present invention has been described. Hereinafter, a data exchange method according to the processor operation of the data exchange device will be described.

3 is a flowchart illustrating a data exchange method according to an embodiment of the present invention.

Referring to FIG. 3, the processor 5500 of the data exchange device 5000 may receive at least one piece of data from the data transmission device 1000 (S1000 ). In this case, the at least one data may be data transmitted from the data transmission device 1000 connected to the first network. Accordingly, the data transmission device 1000 may transmit at least one piece of data to the data exchange device 5000 adjacent to the first network.

In this case, the at least one piece of data may be data encrypted by the data transmission device 1000. According to an embodiment, the data may be encrypted by security according to a public key infrastructure (PKI).

Thereafter, the processor 5500 may search for another data exchange device adjacent to the second network among data exchange devices located on a network based on the same distributed ledger (S2000). Further, the processor 5500 may transmit other data to the data exchange device (S3000).

The processor 5000 may transmit the data to the data receiving device 3000 through a processor of another data exchange device (S4000). In other words, the processor of the other data exchange device may identify the data receiving device and transmit the received data to the data receiving device.

Accordingly, after verifying the data through a distributed ledger, the data receiving device 3000 may decrypt the encrypted data through the public key or the private key.

In addition, the data receiving device 3000 may change the attribute of the received data to be compatible with the second network. Accordingly, the data exchange method according to the embodiment of the present invention converts the attribute of at least one data that moves between different heterogeneous networks (first network and second network), thereby providing high performance and high reliability. Can provide a data exchange method.

Thereafter, the processor 5500 may receive at least one data processing event from the data receiving device 3000 (S5000). According to an embodiment, the data processing event may include at least one of a reception event of the data, a verification event of the data, a decoding processing event of the data, and an attribute conversion event of the data.

The processor 5500 may record the received data processing event in the distributed ledger (S6000). Thereafter, the processor 5500 may share the distributed ledger with at least one other data exchange device (S7000).

In addition, even after each of the steps S1000 to S5000 is performed, the processor 5500 may record data processing events in the corresponding step in the distributed ledger. Thereafter, the processors 5500 may transmit the recorded distributed ledger to other network devices 5000.

Therefore, a plurality of data exchange devices 5000 located on a network based on a distributed ledger according to an embodiment of the present invention share the same distributed ledger, so that when an abnormality occurs in data, tracking is easy and the integrity of the data is guaranteed. , High efficiency, high performance and high reliability data exchange method is provided.

In the above, an apparatus and method for exchanging data between heterogeneous networks according to an embodiment of the present invention and a data exchanging system using the same have been described.

The apparatus and method for exchanging data between heterogeneous networks according to an embodiment of the present invention, and a data exchanging system using the same, include encrypted data transmitted from a data transmission device connected to a first network, located on a distributed ledger-based network. By transmitting to the data receiving device connected to the second network by the data exchange device, at least one event related to data processing is recorded in the distributed ledger to facilitate tracking in case of data abnormality, and the data receiving device decrypts the encrypted data. And, by changing the properties of the decrypted data to be compatible with the second network, a data exchange device and method between heterogeneous networks of high efficiency, high performance and high reliability, and a data exchange system using the same, that guarantees the integrity of the data. can do.

The operation of the method according to the embodiment of the present invention may be implemented as a computer-readable program or code on a computer-readable recording medium. The computer-readable recording medium includes all types of recording devices that store data that can be read by a computer system. In addition, the computer-readable recording medium may be distributed over a computer system connected through a network to store and execute a computer-readable program or code in a distributed manner.

In addition, the computer-readable recording medium may include a hardware device specially configured to store and execute program commands, such as ROM, RAM, and flash memory. The program instructions may include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like.

While some aspects of the invention have been described in the context of an apparatus, it may also represent a description according to a corresponding method, where a block or apparatus corresponds to a method step or characteristic of a method step. Similarly, aspects described in the context of a method can also be represented by a corresponding block or item or a feature of a corresponding device. Some or all of the method steps may be performed by (or using) a hardware device such as, for example, a microprocessor, a programmable computer or electronic circuit. In some embodiments, one or more of the most important method steps may be performed by such an apparatus.

In embodiments, a programmable logic device (eg, a field programmable gate array) may be used to perform some or all of the functionality of the methods described herein. In embodiments, the field programmable gate array may work with a microprocessor to perform one of the methods described herein. In general, the methods are preferably performed by some hardware device.

Although the above has been described with reference to the preferred embodiments of the present invention, those skilled in the art will be able to variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims. You will understand that you can.

1000: data transmission device 1100: memory
1500: processor 3000: data receiving device
3100: memory 3500: processor

Claims (20)

As one of a plurality of data exchange devices provided in a distributed ledger-based network environment, a data exchange device for exchanging data between heterogeneous networks,
Distributed ledger;
Memory; And
Including a processor (processor) for executing at least one instruction stored in the memory,
The at least one command,
An instruction to receive data from a data transmission device connected to the first network,
A command to transmit the data received through another data exchange device provided on the distributed ledger-based network to a data receiving device connected to a second network,
An instruction to record at least one event performed in connection with the processing of the data in the distributed ledger, and
Including an instruction to share the at least one event with the plurality of data exchange devices,
The data exchange device is located closest to the first network among the plurality of data exchange devices,
The other data exchange device is located closest to the second network among the plurality of data exchange devices,
The data exchange device and the other data exchange device are provided on the same distributed ledger based network. The method of claim 1,
Data received from the data transmission device is encrypted using a public key infrastructure (PKI), a data exchange device. delete delete As one of a plurality of data exchange devices provided in a distributed ledger-based network environment, a data exchange method using a data exchange device for exchanging data between heterogeneous networks, including a memory and a processor,
Receiving data from a data transmission device connected to the first network;
Transmitting the data received through another data exchange device provided on the distributed ledger-based network to a data receiving device connected to a second network;
Recording at least one event performed in connection with the processing of the data in the distributed ledger; And
Including the step of sharing the at least one event with the plurality of data exchange devices,
The data exchange device is located closest to the first network among the plurality of data exchange devices,
The other data exchange device is located closest to the second network among the plurality of data exchange devices,
The data exchange method, wherein the data exchange device and the other data exchange device are provided on the same distributed ledger-based network. The method of claim 5,
Data received from the data transmission device is encrypted using a public key infrastructure (PKI), a data exchange method. delete delete In a data exchange system for exchanging data between heterogeneous networks,
A data transmission device connected to the first network;
One of a plurality of data exchange devices provided in a distributed ledger-based network environment, comprising: a data exchange device receiving data transmitted from the data transmission device; And
A data receiving device connected to a second network and receiving data transmitted from the data exchange device,
The data exchange device includes a first data exchange device located closest to the first network and a second data exchange device located closest to the second network,
The data exchange system, wherein the first data exchange device and the second data exchange device are provided on the same distributed ledger based network. The method of claim 9,
The data transmission device transmits encrypted data to the data exchange device. delete The method of claim 9,
The data transmission device transmits data to the first data exchange device,
Wherein the first data exchange device searches for the second data exchange device closest to a second network among the plurality of data exchange devices and transfers the data to the second data exchange device. The method of claim 9,
The data exchange device,
A data exchange system for recording at least one event related to processing of the data generated by the data transmission device and the data reception device, including a distributed ledger, in a distributed ledger. The method of claim 13,
The data exchange device,
The data exchange system for sharing the at least one event by sharing the distributed ledger with the plurality of data exchange devices. The method of claim 9,
The data receiving device,
A data exchange system that checks the distributed ledger of the data exchange device and receives only verified data among data received from the data exchange device. The method of claim 10,
The data receiving device,
A data exchange system for decrypting encrypted data received from the data exchange device. The method of claim 9,
The data receiving device,
A data exchange system for modifying the properties of the received data to be compatible with the second network. A data receiving device connected to a second network and receiving data transmitted from a heterogeneous first network,
Memory; And
Including a processor (processor) for executing at least one instruction stored in the memory,
The at least one command,
An instruction for receiving encrypted data transmitted from the first network by any one of a plurality of data exchange devices provided in a distributed ledger-based network environment,
A command to verify the reliability of the encrypted data using the distributed ledger of the data exchange device,
When verification is complete, an instruction to decrypt the encrypted data, and
Including an instruction to modify the property of the decrypted data to be compatible with the second network,
The encrypted data,
The first data exchange device located closest to the first network receives from the first network and transmits by transmitting to a second data exchange device close to the second network among the plurality of data exchange devices,
The first data exchange device and the second data exchange device are provided on the same distributed ledger based network. The method of claim 18,
The data receiving device further comprising a command for transmitting at least one data processing event generated when the at least one command is executed to the second data exchange device. The method of claim 19,
The transmitted data processing event is recorded in the distributed ledger and shared with a plurality of data exchange devices provided in the distributed ledger-based network environment.

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