KR20200086213A - Method and Apparatus for Providing Roaming Service using Block Chain - Google Patents

Abstract

According to an embodiment of the present invention, the present invention relates to a method for providing a roaming service capable of more efficiently processing network roaming and settlement between different mobile communication providers through the use of a blockchain and a smart contract, and a device therefor. A roaming service system comprises at least one service node, a VNO node, and an HNO node.

Description

Method and Apparatus for Providing Roaming Service using Block Chain for providing roaming service using blockchain

It relates to a method for providing a roaming service using the blockchain and a device therefor. More specifically, the present invention relates to a roaming service providing method and a device therefor that enable an operator to efficiently process roaming and settlement between different mobile communication networks using a blockchain and a smart contract.

The contents described in this section merely provide background information for this embodiment, and do not constitute a prior art.

With the evolution of mobile communication services, innovative changes are expected in the composition of telecommunications operators to increase frequency utilization efficiency, reduce network construction and operation costs, and rapidly introduce and optimize various services. In addition to the existing unlicensed band, various spectrum sharing systems are realized, and a large number of small local mobile operators are expected to appear.To reduce investment and operating costs, existing mobile communication network operators (MNO) as well as small (or regional) ) Network sharing among MNOs is expected to spread.

In order to share the network between MNOs, an interconnection service for a subscriber, that is, a roaming service must be provided. This roaming is done in accordance with the MNO agreement and network interworking, and requires a complicated and time-consuming process such as negotiation of agreement conditions including service level, network interworking test, and settlement.

In particular, as the number of small-scale MNOs increases, the roaming target increases significantly, and an efficient treatment method is needed. For example, if there are n MNOs including small MNOs, up to (n×(n-1))/2 roaming agreements and interlocking tests, quality control and settlement are required, which is shared by the network for cost reduction. There is a problem that it is difficult to achieve the purpose of.

An object of the present invention is to provide a means for more efficiently handling network roaming and settlement between different mobile communication providers through the use of blockchain and smart contracts.

In this embodiment, a smart contract related to roaming service is generated between a home network operator (hereinafter referred to as HNO) and a visited network provider (hereinafter referred to as VNO) and stored in a blockchain, and the smart contract is utilized using the blockchain. At least one service node performing a function for this automatic execution; A VNO node that provides the roaming service to a user terminal subscribed to the HNO contracted based on the smart contract, and charges the HNO for a service fee according to the roaming service provision; And an HNO node that pays the service fee to the VNO node based on the blockchain and the smart contract.

In addition, according to another aspect of the present embodiment, in a roaming service providing method of a roaming service system, a service node generates a smart contract related to a roaming service between a home network operator and a visiting network operator and stores it in a blockchain; A VNO node providing the roaming service to a user terminal corresponding to the contracted home network operator based on the smart contract, and charging a service fee according to the use of the roaming service; And a process in which the HNO node pays the service fee to the VNO node based on the block chain and the smart contract, and provides a roaming service providing method of the roaming service system.

Further, according to another aspect of the present embodiment, as a computer program stored in a computer-readable recording medium, the computer program when executed by at least one processor, the service node roams between the home network operator and the visiting network operator Creating a smart contract related to the service and storing it in the blockchain; A VNO node providing the roaming service to a user terminal corresponding to the contracted home network operator based on the smart contract, and charging a service fee according to the use of the roaming service; And a code for performing a process in which the HNO node pays the service fee to the VNO node based on the blockchain and the smart contract.

According to embodiments of the present invention, it is possible to provide a means for more efficiently handling network roaming and settlement between different mobile communication providers through the use of a blockchain and a smart contract.

1 is a configuration diagram for explaining a roaming service system according to an embodiment of the present invention.
2 is a conceptual diagram illustrating a roaming service scenario in a blockchain network according to an embodiment of the present invention.
3 is a conceptual diagram illustrating an authentication and access control method for a roaming service according to an embodiment of the present invention.
4 is a flow chart for explaining a roaming service providing method according to an embodiment of the present invention.
5 to 6 are exemplary views for explaining an implementation form of a roaming service system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Blockchains are electronic ledgers implemented as a computer-based decentralized distributed system composed of blocks composed of transactions. Each transaction includes at least one input and at least one output. Each block is linked together to create a permanent and immutable record for every transaction recorded on the blockchain from the beginning, including the hash of the previous block.

Smart contracts are computer programs designed to automate the execution of contract or agreement terms. Unlike traditional contracts written in natural language, smart contracts are machine-executable programs that contain rules that can process input to produce results, and actions that must be performed based on the results can be triggered.

The present invention discloses a method for providing a roaming service using such a blockchain and a smart contract. In more detail, we propose a roaming service structure that can efficiently handle network roaming and settlement between different mobile communication providers through the use of blockchain and smart contracts.

1 is a configuration diagram illustrating a roaming service system according to an embodiment of the present invention, and FIG. 2 is a conceptual diagram illustrating a roaming service scenario in a blockchain network according to an embodiment of the present invention.

Hereinafter, a roaming service system according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2 together.

The roaming service system 100 according to an embodiment of the present invention includes n MNO nodes 110 and 120 constituting a blockchain network, user terminal nodes 130 and 132 corresponding to each MNO, and single or multiple services. Node 140. At this time, the components included in the roaming service system according to an embodiment of the present invention are not necessarily limited thereto. For example, it should be recognized that the types of nodes constituting the blockchain network in the roaming service system may have more or fewer components or configurations of different components according to types of services. That is, according to an embodiment, the roaming service system 100 may be implemented in a form in which an HNO node or a VNO node performs a role of a service node without a separate service node.

Meanwhile, in this embodiment, each node constituting the blockchain network of the roaming service system may be implemented by a program in a computing device. For example, each node may be implemented by a decentralized application (DAPP), which is a kind of decentralized app in a computing device.

In this case, by DAPP, basically, the participant can view the ledger in the blockchain, input necessary data, and send/receive tokens. In addition, in the present embodiment, various functions can be provided to support a valid service that provides convenience and efficiency in a business utilizing a blockchain.

Meanwhile, in the following, in the process of describing the roaming service system 100 according to an embodiment of the present invention, the first MNO node 110 corresponds to a node corresponding to a home network operator (hereinafter referred to as HNO) Node, and the second MNO node 120 is a node corresponding to a visited network operator (hereinafter referred to as a VNO node).

The HNO node 110 is a blockchain network node corresponding to a home network operator, and provides various functions related to the use and settlement of the roaming service of the user terminal subscribed to the home network operator.

In this embodiment, the HNO node 110 may perform settlement for the use of the roaming service of the user terminal based on the blockchain and smart contract. That is, the HNO node 110 operates to enable token-based transaction processing in connection with the use of the roaming service of the user terminal.

To this end, the HNO node 110 may purchase or generate a token (ex: Bearer token) in advance, and distribute it to a user terminal or a user. For example, the HNO node 110 may purchase the token issued by the service node 140 and distribute it to the user terminal or the user as a service usage right for the roaming service.

At this time, the HNO node 110 may perform endorsement processing on the purchased token, and transmit the endorsed token to a user terminal or a blockchain account granted to the user. Here, the registration means to pay the legal currency or the corresponding cryptocurrency according to the contract for the tokens that are later recovered.

Meanwhile, the HNO node 110 basically supports a roaming service to a user terminal subscribed to according to a smart contract, but may operate to support a roaming service for some or all of the user terminals according to a preset service provision policy. .

For example, the HNO node 110 performs authentication for this when the predetermined service provision policy is to provide a service to an optional subscriber, and selectively selects an endorsement token for a roaming service to a user terminal or a user according to the result of the execution. Can be distributed.

Referring to Figure 3, HNO node 110 is It has a unique authentication system interworking with the HNO node 110, through which it is possible to perform authentication for a user terminal or a user. On the other hand, when a user terminal that is a subscriber of HNO installs DAPP on the device, DAPP automatically requests an endorsement token from HNO node 110. The HNO node 110 accesses its own authentication system including a policy server to perform authentication, and transfers the endorsement token to the user terminal or the user's account according to the result.

In this way, HNO is very efficient because it only needs to link its authentication system to its own HNO node 110. In addition, access control for supporting the roaming service is performed according to the service policy of the HNO node 110, and the VNO node 120 does not cause additional privacy problems because the user's identity information is unknown.

Thereafter, the HNO node 110 and the VNO node 120 utilize the token in setting a service fee according to a user terminal or a user's use of roaming services. That is, the HNO node 110 receives a certain amount of tokens from the VNO node 120 as proof of service charges according to the use of the roaming service by the user terminal or the user. In this case, the predetermined amount of tokens may be the amount of tokens converted in proportion to the service usage amount and quality for the roaming service of the user terminal. Meanwhile, the VNO node 120 may receive the token from the user terminal or the user in exchange for the use of the roaming service.

The HNO node 110 pays the legal currency corresponding to the token of the amount received or the cryptocurrency corresponding to the legal currency, for example, the stable coin to the VNO node 120.

On the other hand, the HNO node 110 can reuse the tokens received from the VNO node 120 and distribute them back to the user terminal or user, and through this process, the tokens can be circulated repeatedly. In addition, when the scale of the service is insufficient and the circulation of tokens is insufficient, the HNO node 110 may purchase additional tokens and distribute them.

The VNO node 120 is a blockchain network node corresponding to a visited network operator, and provides a construction and management function for the visited network.

The VNO node 120 provides a roaming service according to an agreement with a mobile communication provider having a subscriber. In this embodiment, the VNO node 120 uses a blockchain and a smart contract to roam to a visited network only for user terminals (hereinafter, referred to as user terminals) that are subscribed to a contracted mobile communication service provider. Provides

To this end, the VNO node 120 may identify a user terminal of an agreed mobile communication provider among terminals located in the visited network coverage and perform access control to the user terminal. In the present embodiment, the VNO node 120 may identify a user terminal of a contracted mobile communication provider that needs to provide a service among terminals located in network coverage according to a smart contract stored in the blockchain.

Referring to FIG. 3, the VNO node 120 may receive a roaming request signal including access request information and account information from a user terminal, and identify a user terminal in connection with providing a roaming service based on this. For example, the VNO node 120 checks the parameters for checking authorization on the connection request information, for example, the user's terminal owner's public machine and the International Mobile Subscriber Identity (IMSI) and Globally Unique Temporary Identifier (GUTI), and based on this, the agreement It is possible to identify the user terminal of the mobile operator.

In addition, the VNO node 120 may be identified as a target terminal that is a target of a roaming service for a user terminal or a user who has a certain amount of tokens or more in the account based on the account information.

The VNO node 120 checks whether there is an executable roaming service contract between the HNO and the VNO identified in the smart contract, and confirms that the user terminal or the user has the right to use the roaming service according to the verification result.

The VNO node 120 is provided with a result of whether or not a user terminal or a user has a usage right, and based on this, transmits an authentication response to the user terminal to use the visited network.

Thereafter, the VNO node 120 collects service usage information from the user terminal using the roaming service, and transmits a payment request to the HNO 110 node. On the other hand, in the present embodiment, the service usage information for the user terminal is preferably a utility token as much as the amount converted in proportion to the service usage amount and quality for the roaming service, but is not limited thereto. Accordingly, the VNO node 120 may transfer the converted amount of tokens to the HNO 110 node to charge a service fee related to the roaming service.

The VNO node 120 may be provided with a fiat currency corresponding to a token transferred from the HNO 110 node or a cryptocurrency corresponding to the fiat currency, for example, stable coin.

The user terminal nodes 130 and 132 are blockchain network nodes corresponding to mobile users using roaming services, and provide functions such as connection and service usage information transmission according to roaming services.

In this embodiment, the user terminal nodes 130 and 132 may receive tokens in advance in connection with the use of the roaming service from the MNO node of the mobile communication provider to which the user terminal has subscribed.

Accordingly, the user terminal nodes 130 and 132 measure the service usage amount and quality information according to the use of the roaming service, and provide the converted utility token in proportion to the measurement result as the service usage information to the VNO node 120 Can.

The service node 140 performs functions necessary to operate the blockchain and the blockchain network.

In the present embodiment, the service node 140 performs a function to enable efficient contract execution and automatic execution for a roaming service between HNO and VNO.

For example, the service node 140 converts HNO and VNO, which are the parties to the agreement, into a contract that can be automatically executed when the agreement is signed with a contract written in natural language.

In addition, the service node 140 verifies the integrity of the smart contract and network key performance indicator (KPI) data.

In addition, the service node 140 provides various services for the operation of the blockchain, including transaction verification.

The function of the service node 140 will be described in more detail as follows.

The service node 140 according to the present embodiment creates a smart contract related to a roaming service between a home network operator and a visiting network operator and stores it in a blockchain (or distributed ledger).

First, the service node 140 adjusts/agrees with the negotiable conditions based on a standard contract or a service level agreement (SLA) expressed in a natural language between a home network operator and a visiting network operator. Here, the contents and conditions of the standard contract are specialized for the relevant business field and can be implemented as an optional combination of predefined phrases or sentences.

The service node 140 converts the contract information into software executable on a blockchain or a blockchain network through a rule engine such as AI to generate a smart contract (ex: executable code).

The service node 140 performs non-repudiation of the smart contract by using digital signatures for each of the home network operator and the visiting network operator, and stores it on the blockchain. This means that the integrity of the agreement information between HNO and VNO is guaranteed.

The service node 140 performs a function for automatically executing a smart contract using a blockchain. To this end, the service node 140 may perform a function of verifying the integrity of roaming service-related events occurring off-chain or off-chain using a blockchain. In this embodiment, the service node 140 functions to secure transaction reliability, provide integrity of N/W performance data, and control N/W access using a blockchain. For example, the service node 140 issues a token corresponding to the roaming service, and verifies the integrity of roaming service related transaction events occurring based on the token.

The service node 140 performs verification by comparing service usage information for the roaming service measured from the user terminal with service provision information measured from the VNO node 120, and stores the verified service usage information on the blockchain. do.

The service node 140 compares the utility token amount received from the user terminal with the KPI data for the user terminal measured from the VNO node 120, and when the difference value is less than a predetermined threshold, verification of service usage information is completed. Judge.

4 is a flow chart for explaining a roaming service providing method according to an embodiment of the present invention.

The service node 140 creates a smart contract related to the roaming service between the home network operator and the visiting network operator, and stores the generated smart contract in the blockchain (S402). In step S402, the service node 140 converts the concluded contract based on the standard contract or service level agreement expressed in natural language between the home network operator and the visiting network operator into software executable on the blockchain or blockchain network. Create a smart contract.

The VNO node 120 provides a roaming service to a user terminal corresponding to a contracted home network operator according to the smart contract in step S402, and charges a service fee according to the use of the roaming service (S404). In step S404, the VNO node 120 receives a roaming request signal including access request information and account information from the user terminal, and performs access control to the user terminal based on the service provision policy and blockchain based on the account information.

The VNO node 120 receives the converted amount of tokens as service usage information in proportion to the service usage amount and quality for the roaming service from the user terminal, and transfers the converted amount of tokens to the HNO node 110 to charge the service. Charges.

The HNO node 110 collects service usage information for the user terminal from the VNO node 120 and pays a fee corresponding to the service usage information to the VNO node 120 based on the blockchain and smart contract (S406). . In step S406, the HNO node 110 receives the utility token as a service usage information for the user terminal from the VNO node 120, and the fiat currency corresponding to the utility token or cryptocurrency corresponding to the fiat currency, for example, stable The coin is paid to the VNO node 120.

Here, since steps S402 to S404 correspond to the operation of each component of the roaming service system 100 described above, further detailed description is omitted.

In FIG. 4, each process is described as sequentially executed, but is not limited thereto. In other words, since the process described in FIG. 4 may be changed and executed or one or more processes may be executed in parallel, FIG. 4 is not limited to a time series sequence.

As described above, the service providing method of the roaming service system shown in FIG. 4 is implemented as a program and can be read using a computer software (CD-ROM, RAM, ROM, memory card, hard disk, magneto-optical disk, Storage device, etc.).

5 to 6 are exemplary views for explaining an implementation form of a roaming service system according to an embodiment of the present invention.

In this embodiment, in the case of the roaming service system 100, when the visiting network operator MNO 2 does not directly recruit subscribers and provides services to subscribers of other home network operators, it is implemented in the form of a neutral network service model. Can be.

Referring to FIG. 5, a neutral network service provider (Neutral Host Operator, hereinafter, NHO) establishes a mobile communication network and/or a Wi-Fi network and provides services to subscribers of the negotiated MNO, and the MNO pays for this. Pay to the NHO. On the other hand, in the neutral network service model, NHO can function as VNO and MNO as HNO. That is, the neutral network service model is a special example in which the roaming service system 100 is implemented, and access control and settlement methods for roaming can be applied in the same way.

An example of a roaming service and settlement procedure in such a service model is shown in FIG. 6.

①, ② The service node 140 creates a smart contract related to a roaming service between a home network operator and a visiting network operator, and stores the generated smart contract in a blockchain.

③, ④ The HNO node 110 purchases an anonymous token from the service node 140, distributes it, and distributes it to a user terminal or user account corresponding to the home network operator.

⑤, ⑥, ⑦ The VNO node 120 provides a roaming service to the user terminal, and receives tokens according to the amount and quality of the roaming service from the user terminal or the user.

⑧, ⑨, ⑩ The HNO node 110 receives a certain amount of tokens from the VNO node 120 as proof of service charges according to the use of the roaming service of the user terminal, and fiat money or statutory countering the amount of tokens paid Cryptocurrency corresponding to the currency, for example, stable coin, is paid to the VNO node 120.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which this embodiment belongs may be capable of various modifications and variations without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical spirit of the present embodiment, but to explain, and the scope of the technical spirit of the present embodiment is not limited by these embodiments. The protection scope of the present embodiment should be interpreted by the claims below, and all technical spirits within the equivalent range should be interpreted as being included in the scope of the present embodiment.

100: roaming service system 110: HNO node
120: VNO node 130, 132: user terminal node
140: service node

Claims (16)

A smart contract related to roaming service is created between a home network operator (hereinafter referred to as HNO) and a visited network provider (hereinafter referred to as VNO) and stored in a blockchain, and the smart contract is automatically executed using the blockchain. One or more service nodes performing a function;
A VNO node that provides the roaming service to a user terminal subscribed to the HNO agreed on the basis of the smart contract, and charges the HNO for a service fee according to the roaming service provision; And
HNO node that pays the service fee to the VNO node based on the blockchain and the smart contract
Roaming service system comprising a. According to claim 1,
The service node,
The smart contract is generated by converting the contents of the contract between HNO and VNO based on a standard contract or service level agreement (SLA) expressed in natural language into software executable on a blockchain or blockchain network. Roaming service system, characterized in that. According to claim 1,
The service node,
A token corresponding to the roaming service may be issued, and a function of verifying integrity of transaction events related to the roaming service generated based on the token may be performed. According to claim 1,
The HNO node,
Roaming service system, characterized in that the token issued from the service node corresponding to the roaming service is distributed to the user terminal or a user blockchain account as a service usage right for the roaming service. The method of claim 4,
The HNO node,
A roaming service system characterized by purchasing the token from the service node or receiving it free of charge, and then transmitting the distributed token to a blockchain account granted to the user terminal or user. The method of claim 4,
The HNO has an HNO-specific authentication system interworking with the HNO node, and performs authentication for the user terminal requesting access service to a VNO network through the authentication system,
The HNO node transfers the token to the user terminal or a user's blockchain account according to the result of the performance. The method of claim 4,
The HNO has a unique authentication system including a policy server interworking with the HNO node, and periodically supplies a certain amount of the tokens to a blockchain account selectively assigned to a user terminal or a user according to the service policy of the HNO. Roaming service system characterized in that the distribution. The method of claim 4,
The user terminal or the user automatically or manually requests a token transfer from the HNO,
The HNO node performs authentication using the authentication system and policy server linked with the HNO, and transfers the corresponding amount of tokens to the user terminal or user account. According to claim 1,
The VNO node,
A roaming service system comprising receiving a roaming request including access request information and account information from the user terminal, and performing access control to the user terminal based on the service provision policy and the blockchain based on the account information. . The method of claim 9,
The VNO node,
A roaming service system characterized in that access to the roaming service is permitted only to a user terminal or a user having a certain amount of tokens or more in the account based on the account information. The method of claim 10
The VNO node,
A roaming service system characterized by receiving service usage information for the roaming service based on the token from the user terminal and charging the service fee according to the service usage information. The method of claim 11,
The VNO node,
Characterized in that the received amount of tokens in proportion to the service usage amount and quality for the roaming service is provided as the service usage information, and the converted amount of tokens are transferred to the HNO node to charge the service fee. Roaming service system. According to claim 1,
A roaming service system characterized in that one VNO provides a smart contract with a plurality of the HNOs and provides the roaming service to a plurality of subscribers of the HNOs. According to claim 1,
The roaming service system, characterized in that the VNO node or the HNO node performs a function as the service node. In the roaming service system providing a roaming service system,
A process in which the service node creates a smart contract related to a roaming service between a home network operator and a visiting network operator and stores it in a blockchain;
A VNO node providing the roaming service to a user terminal corresponding to the contracted home network operator based on the smart contract, and charging a service fee according to the use of the roaming service; And
The process of HNO node paying the service fee to the VNO node based on the blockchain and the smart contract
Roaming service providing method of a roaming service system comprising a. A computer program stored in a computer-readable recording medium, when the computer program is executed by at least one processor,
A process in which the service node creates a smart contract related to a roaming service between a home network operator and a visiting network operator and stores it in a blockchain;
A VNO node providing the roaming service to a user terminal corresponding to the contracted home network operator based on the smart contract, and charging a service fee according to the use of the roaming service; And
The process of HNO node paying the service fee to the VNO node based on the blockchain and the smart contract
A computer program comprising code for performing a program.

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