KR102601381B1 - System for transaction fee payment by proxy of token transaction using smart contract and method of the same - Google Patents

Abstract

A token withdrawal transaction fee payment system and method using a smart contract provides a service where the custody system withdraws the transaction fee according to the token withdrawal transaction through a payment account and pays it to the smart contractor when the consignor terminal requests a token withdrawal transaction. It begins. The method of paying the token withdrawal transaction fee using a smart contract according to an embodiment of the present invention involves a smart contract related to the custody system corresponding to the trustee terminal being authorized to withdraw digital assets from the trustee terminal and receiving approval for withdrawal of digital assets. step; When the custody system receives a request for withdrawal of digital assets from the consignor terminal, verifying data related to withdrawal of the digital assets by the verification logic of the custody system; When the withdrawal-related data of the digital asset is verified, the custody system withdraws the transaction fee through the payment account of the custody system and pays the transaction fee to the smart contract instead of the trustor terminal; And a step where the smart contract receives the transaction fee through the payment account, approves delivery of tokens related to the digital asset requested for withdrawal by the consignor terminal, and transmits the digital asset to the recipient account.

Description

Token withdrawal transaction fee payment system and method using smart contract {SYSTEM FOR TRANSACTION FEE PAYMENT BY PROXY OF TOKEN TRANSACTION USING SMART CONTRACT AND METHOD OF THE SAME}

The present invention relates to a token withdrawal transaction fee payment system and method using a smart contract. More specifically, when a token withdrawal transaction is requested by the consignor terminal, the custody system withdraws the transaction fee according to the token withdrawal transaction through the payment account. This relates to a token withdrawal transaction fee payment system and method using a smart contract that provides payment services to smart contractors.

Recently, as investment in virtual assets has rapidly increased, there is a demand for services that perform virtual asset management by entrusting the management of various types of virtual assets, including Bitcoin and Ethereum. Virtual asset management services have several advantages, including providing services to safely store and manage customers’ virtual assets. In the case of conventional virtual asset management services, a transaction fee called a gas fee must be paid when a customer attempts to deliver virtual assets to the recipient. Since these gas fees fluctuate depending on the type of virtual asset and transaction situation, the transaction fee must be checked every time a digital asset is traded, especially for customers who must periodically or frequently deliver virtual assets to the recipient, the overall size of the gas fee. It is also difficult to understand. In addition, it is difficult for conventional virtual asset management services to prevent digital assets from being stolen by employees in charge of customer companies, and there is a risk of hacking, so prevention measures are necessary.

The present invention provides a token withdrawal transaction fee payment system using a smart contract in which the custody system withdraws the transaction fee according to the token withdrawal transaction through a payment account when a token withdrawal transaction is requested by the consignor's terminal and provides a service of paying the transaction fee to the smart contractor; The purpose is to provide that method.

In addition, the present invention is to provide a token withdrawal transaction fee payment system and method using a smart contract that can enhance security by utilizing multi-factor authentication and multi-signature. .

In addition, the present invention is to provide a token withdrawal transaction fee payment system and method using a smart contract that can reduce the risk of theft and hacking of digital assets by distributing accounts for management of digital assets into applicant accounts and approver accounts. will be.

The method of paying the token withdrawal transaction fee using a smart contract according to an embodiment of the present invention involves a smart contract related to the custody system corresponding to the trustee terminal being authorized to withdraw digital assets from the trustee terminal and receiving approval for withdrawal of digital assets. step; When the custody system receives a request for withdrawal of digital assets from the consignor terminal, verifying data related to withdrawal of the digital assets by the verification logic of the custody system; When the withdrawal-related data of the digital asset is verified, the custody system withdraws the transaction fee through the payment account of the custody system and pays the transaction fee to the smart contract instead of the trustor terminal; And it may include the step of the smart contract receiving the transaction fee through the payment account, approving the delivery of tokens related to the digital asset requested to be withdrawn by the consignor terminal, and transmitting the digital asset to the recipient account.

The method of paying the token withdrawal transaction fee using a smart contract according to an embodiment of the present invention involves receiving an application for digital asset management through an applicant account by the approval request unit of the custody system and applying for digital asset management through multiple approver accounts. requesting approval for; performing verification of the digital asset management application according to whether the digital asset management application is approved by the plurality of approver accounts by the verification logic provided in the account verification unit of the custody system; And it may further include distributing and storing, by the custody system, a plurality of distributed keys for signing a multi-sig wallet used for digital asset management in a distributed storage unit of the custody system.

The step of performing the verification may include approving the digital asset management application upon completion of approval from a set number of approver accounts among the plurality of approver accounts.

The step of transferring to the recipient's account includes generating a master key by combining at least two of the plurality of distribution keys upon completion of verification by the account verification unit; And it may include signing the multi-sig wallet with the master key and transmitting the digital asset requested to be withdrawn by the consignor terminal to the beneficiary account.

The plurality of distributed keys can be distributed and stored using Shamir’s Key Distribution method.

A method of paying a token withdrawal transaction fee using a smart contract according to an embodiment of the present invention includes the steps of creating an owner account according to an owner account creation request of the consignor terminal by an owner account creation unit of the custody system; Creating the applicant account according to a request for creating an applicant account from the consignor terminal related to the owner account, by an applicant account creation unit of the custody system; And it may further include the step of creating the plurality of approver accounts according to a request for creating an approver account of the consignor terminal related to the owner account, by an approver account creation unit of the custody system.

The digital asset may include a plurality of virtual currencies selected from virtual currencies including Bitcoin, Ethereum, and Klaytn.

The token withdrawal transaction fee payment method using a smart contract according to an embodiment of the present invention may further include the step of registering one or more multisig wallets for each of the plurality of virtual currencies by the digital asset wallet register of the custody system. You can.

The step of creating the applicant account may include creating the applicant account for each of the plurality of virtual currencies and the multi-sig wallet.

The step of creating the plurality of approver accounts may include creating the approver account for each of the plurality of virtual currencies and the multi-sig wallet.

The step of registering one or more multisig wallets includes whitelisting a plurality of multisig wallets including a first multisig wallet requested for registration by the trustor terminal and a second multisig wallet verified through digital asset history. It may include a registration step.

A multisig wallet selectable by the applicant account among the plurality of multisig wallets registered as the whitelist digital asset wallets may be set for each applicant account.

A method of paying a token withdrawal transaction fee using a smart contract according to an embodiment of the present invention includes the steps of granting the plurality of approver accounts for each applicant account to the owner account by the custody system; When an application for a digital asset is received through the applicant account by the custody system, comparing the size of the requested digital asset with a preset reference asset size; determining, by the custody system, the number of approver accounts to request approval among the plurality of approver accounts according to a comparison result between the size of the requested digital asset and the reference asset size; randomly selecting, by the custody system, an approver account to process approval for a digital asset from among the plurality of approver accounts set for the applicant account as many as the number of approver accounts; And it may further include requesting approval for the digital asset from two or more approver accounts randomly selected by the custody system.

According to an embodiment of the present invention, a computer program recorded on a computer-readable recording medium is provided to execute the token withdrawal transaction fee payment method using the smart contract.

The token withdrawal transaction fee payment system using a smart contract according to an embodiment of the present invention includes a smart contract that receives permission to withdraw digital assets by being delegated authority to allow withdrawal of digital assets from the consignor terminal; And it may include a custody system corresponding to a trustee terminal that has entrusted the digital asset from the trustee terminal.

When the custody system receives a request for withdrawal of digital assets from the consignor terminal, the custody system verifies data related to withdrawal of the digital assets by the verification logic of the custody system; When the data related to the withdrawal of the digital asset is verified, the transaction fee can be withdrawn through the payment account of the custody system and the transaction fee can be configured to pay the transaction fee to the smart contract instead of the trustor terminal.

The smart contract may be configured to receive payment of the transaction fee through the payment account, approve delivery of tokens related to the digital asset requested to be withdrawn by the consignor terminal, and transmit the digital asset to the recipient account.

According to an embodiment of the present invention, when a token withdrawal transaction is requested from the consignor's terminal, the custody system withdraws the transaction fee according to the token withdrawal transaction through a payment account and withdraws the token using a smart contract that provides a service of paying it to the smart contractor. A transaction fee payment system and method are provided.

In addition, according to an embodiment of the present invention, a token withdrawal transaction fee payment system and method using a smart contract that can enhance security by utilizing multi-factor authentication and multi-signature This is provided.

In addition, according to an embodiment of the present invention, a token withdrawal transaction fee payment system using a smart contract that can reduce the risk of theft and hacking of digital assets by distributing the accounts for managing digital assets into applicant accounts and approver accounts, and the same A method is provided.

Figure 1 is a configuration diagram of a token withdrawal transaction fee payment system using a smart contract according to an embodiment of the present invention.
Figure 2 is a flow chart of a token withdrawal transaction fee payment method using a smart contract according to an embodiment of the present invention.
FIG. 3 is a conceptual diagram for explaining step S100 of FIG. 2.
FIG. 4 is a conceptual diagram for explaining step S200 of FIG. 2.
FIG. 5 is a conceptual diagram for explaining step S300 of FIG. 2.
FIG. 6 is a conceptual diagram for explaining step S400 of FIG. 2.
Figure 7a is a configuration diagram of a trustee terminal constituting a digital asset custody system according to an embodiment of the present invention.
Figure 7b is a conceptual diagram of a digital asset custody system according to an embodiment of the present invention.
Figure 8 is a flowchart showing the process of creating an applicant account and an approver account in a digital asset management method according to an embodiment of the present invention.
Figure 9 is a flowchart showing the digital asset management application and approval process of the digital asset management method according to an embodiment of the present invention.
Figure 10 is a flowchart showing the digital asset management application and approval process of the digital asset management method according to another embodiment of the present invention.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms. The present embodiments are merely provided to ensure that the disclosure of the present invention is complete and to be understood by those skilled in the art. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In this specification, when a part 'includes' a certain component, this means that it may further include other components rather than excluding other components unless specifically stated to the contrary. As used herein, '~unit' refers to a unit that processes at least one function or operation, and may mean, for example, software, FPGA, or hardware components. The functions provided in '~ part' may be performed separately by multiple components, or may be integrated with other additional components. '~ part' in this specification is not necessarily limited to software or hardware, and may be configured to be in an addressable storage medium, or may be configured to reproduce one or more processors. Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

In the token withdrawal transaction fee payment system and method using a smart contract according to an embodiment of the present invention, when a token withdrawal transaction is requested by the consignor terminal, the custody system withdraws the transaction fee according to the token withdrawal transaction through the payment account and sends it to the smart contracter. We can provide a payment service.

The token withdrawal transaction fee payment system and method using a smart contract according to an embodiment of the present invention allows a smart contract related to the custody system corresponding to the trustee terminal to withdraw digital assets by being delegated the authority to allow withdrawal of digital assets from the trustee terminal. get approved; When the custody system receives a request for withdrawal of digital assets from the consignor terminal, data related to withdrawal of digital assets is verified by the verification logic of the custody system; When data related to withdrawal of digital assets is verified, the custody system withdraws the transaction fee through the custody system's payment account and pays the transaction fee to the smart contract instead of the trustor terminal; The smart contract receives the transaction fee through the payment account, and the consignor terminal approves the delivery of tokens related to the digital asset requested for withdrawal, allowing the digital asset to be transferred to the recipient's account.

Figure 1 is a configuration diagram of a token withdrawal transaction fee payment system using a smart contract according to an embodiment of the present invention. Referring to FIG. 1, the digital asset custody system 10 according to an embodiment of the present invention may include one or more trustee terminals 100, one or more trustee terminals 200, and a trustee DB 300.

The trustor terminal 100 may be a terminal related to a trustor that entrusts the storage and management of digital assets to the trustor terminal 200. For example, the consignor terminal 100 may be a terminal belonging to an organization (consignor) such as a company, institution, or organization that holds digital assets.

The consignor terminal 100 may be provided as a terminal such as a desktop PC, laptop, notebook, smartphone, or smart pad, but is not limited thereto. The consignor terminal 100 may include one or more manager terminals 110, one or more applicant terminals 120, and one or more approver terminals 130.

The manager terminal 110, the applicant terminal 120, the approver terminal 130, and the trustee terminal 200 are connected through a wired/wireless communication network and can communicate with each other. The manager terminal 110 may be a terminal that requests the trustee terminal 200 for an owner account, an applicant account, and an approver account to entrust the storage and management of digital assets held by a trustee such as a company to the trustee.

The applicant terminal 120 accesses the applicant account issued by the trustee terminal 200 in accordance with the digital asset storage and management request of the manager terminal 110 and applies for digital asset management such as storage, transfer, and withdrawal of digital assets. It may be a terminal used by the applicant.

In an embodiment of the present invention, the digital asset that is entrusted by the consignor to the trustee may include one or more virtual currencies selected from virtual currencies including Bitcoin, Ethereum, and Klaytn.

The approver terminal 130 may be a terminal used by an approver who accesses the approver account issued by the trustee terminal 200 and approves the digital asset management application applied by the applicant terminal 120.

The trustee terminal 200 is entrusted with the storage and management of digital assets from the trustee terminal 100 and can provide a custody service that stores and manages digital assets requested from the trustee terminal 100.

The trustee database (DB) 300 contains digital asset information entrusted from the consignor terminal 100, owner account information, applicant account information, approver account information, and digital asset wallet information (corresponding to a random number) storing the entrusted digital assets. Wallet address), etc. can be saved.

Figure 2 is a flow chart of a token withdrawal transaction fee payment method using a smart contract according to an embodiment of the present invention. FIG. 3 is a conceptual diagram for explaining step S100 of FIG. 2. Referring to Figures 2 and 3, first, the smart contract 400 related to the custody system corresponding to the trustee terminal is delegated the authority to allow withdrawal of digital assets from one or more trustee terminals 100, respectively, and sends digital assets (e.g. , a step of receiving approval for withdrawal of torque (ERC-20, ERC-721, ERC-1155, etc.) related to virtual currencies such as Bitcoin, Ethereum, and Klaytn can be performed (S100). At this time, the consignor can directly pay the transaction fee to the smart contract 400 through the consignor terminal 100.

FIG. 4 is a conceptual diagram for explaining step S200 of FIG. 2. Referring to FIGS. 2 and 4, when the custody system 10 receives a request for withdrawal of digital assets from the consignor terminal 100, the custody system 10 performs withdrawal-related processing of digital assets by the verification logic 262 of the custody system 10. Data can be verified (S200).

FIG. 5 is a conceptual diagram for explaining step S300 of FIG. 2. Referring to Figures 2 and 5, when the data related to the withdrawal of digital assets is verified, the custody system 10 processes the transaction fee related to the transaction of the digital asset through the payment account 12 of the custody system 10. By withdrawing the fee, the transaction fee can be paid to the smart contract 400 instead of the consignor terminal (S300).

FIG. 6 is a conceptual diagram for explaining step S400 of FIG. 2. Referring to FIGS. 2 and 6, the smart contract 400 receives transaction fees from the custody system 10 through the payment account 12 and delivers tokens related to the digital assets requested for withdrawal by the trustor terminal 100. Upon approval, the digital asset can be transferred to the recipient's account related to the recipient's terminal (500) (S400).

According to an embodiment of the present invention, from the perspective of a customer corresponding to a consignor terminal, digital assets can be delivered to the recipient more conveniently without having to consider the occurrence of transaction fees that vary depending on the type of virtual asset and transaction situation. In addition, from the custodian's perspective, they can attract customers by paying transaction fees, and can also receive a certain fee from customers or earn additional income such as advertising due to the increase in customers.

Figure 7a is a configuration diagram of a trustee terminal constituting a digital asset custody system according to an embodiment of the present invention. Figure 7b is a conceptual diagram of a digital asset custody system according to an embodiment of the present invention.

Referring to FIGS. 1, 7A, and 7B, the trustee terminal 200 includes an owner account creation unit 210, a digital asset wallet register 220, an applicant account creation unit 230, an approver account creation unit 240, It may include an approval request unit 250, an account verification unit 260, a digital asset verification unit 270, a digital asset management unit 280, and a control unit 290.

The owner account creation unit 210 may create an owner account in response to a request for creating an owner account from the consignor terminal 100 and share it with the consignor terminal 100 . The owner account is an account granted to the consignor, and the owner account created by the owner account creation unit 210 may be recorded in the trustee DB 300.

The digital asset wallet register 220 can register a digital asset wallet (multisig wallet) for storing digital assets requested from the trustor terminal 100. The digital asset wallet register 220 can register one or more digital asset wallets (multisig wallets) for each plurality of virtual currencies.

The digital asset wallet register 220 stores the first digital asset wallet (first multi-sig wallet) requested for registration by the trustor terminal 100 and the second digital asset wallet (second multi-sig wallet) verified through the digital asset history. Multiple digital asset wallets (multi-sig wallets) can be registered as whitelist digital asset wallets.

A digital asset wallet (multisig wallet) that can be selected by the applicant account among a plurality of digital asset wallets (multisig wallets) registered as whitelist digital asset wallets can be set individually for each applicant account.

The applicant account creation unit 230 may create an applicant account according to a request for creating an applicant account from the consignor terminal 100 related to the owner account and share it with the consignor terminal 100.

In an embodiment, the applicant account creation unit 230 may create an applicant account for each of a plurality of virtual currency and digital asset wallets. The applicant account created by the applicant account creation unit 230 may be recorded in the trustee DB 300.

The approver account creation unit 240 may create a plurality of approver accounts according to a request for creating an approver account from the consignor terminal 100 related to the owner account and share them with the consignor terminal 100 .

The approver account creation unit 240 may create a plurality of approver accounts for each virtual currency and digital asset wallet. A plurality of approver accounts created by the approver account creation unit 240 may be recorded in the trustee DB 300.

The approval request unit 250 may receive a digital asset management application through an applicant account and request approval for the digital asset management application from multiple approver accounts.

The account verification unit 260 may perform verification of the digital asset management application depending on whether the digital asset management application is approved by a plurality of approver accounts.

The digital asset confirmation unit 270 can check digital assets stored in a digital asset wallet (multisig wallet) related to the digital asset management application.

The digital asset management unit 280 may perform digital asset management according to the digital asset management application upon completion of verification and confirmation of the account verification unit 260 and the digital asset verification unit 270.

The control unit 290 may control each component of the trustee terminal 200 to provide a service for managing digital assets of the trustee terminal.

According to the embodiment shown in FIGS. 7A and 7B, the risk of theft and hacking of digital assets can be reduced by distributing accounts for management of digital assets into applicant accounts and approver accounts.

The approver terminal 130 may be given one approver account for each owner account, but a plurality of approver accounts may be given to the owner account. Additionally, the approver account may be set differently depending on the applicant account.

When multiple approver accounts are granted to the owner account, when the applicant terminal 120 of the consignor terminal 100 accesses the applicant account and applies for storage and management of digital assets, the trustee terminal 200 You can decide which of the approver accounts to request approval for storage and management of digital assets.

In one embodiment, the trustee terminal 200 selects all of the plurality of approver accounts, or randomly selects two or more approver accounts from the plurality of approver accounts, and uses the selected plurality of approver accounts to store and manage digital assets. You can request approval.

The trustee terminal 200 receives a digital asset management application (withdrawal application) from the withdrawal applicant through the applicant account by the approval request unit 250 and requests approval for the digital asset management application (withdrawal application) from a plurality of approver accounts. (S1).

The trustee terminal 200 can perform verification of the digital asset management application depending on whether the digital asset management application is approved by a plurality of approver accounts (withdrawal approval authority accounts) by the account verification unit 260 (S2). .

The distributed storage unit of the trustee DB (300) can distribute and store a number of distributed keys (20) using Shamir’s Key Distribution method to sign the multi-sig wallet (40) used for digital asset management. The plurality of distribution keys 20 may be distributed and stored in the database or storage of the trustee DB 300, respectively.

The account verification unit 260 of the trustee terminal 200 may approve a digital asset management application upon completion of approval from a set number of approver accounts among a plurality of approver accounts (S2). In an embodiment, the account verification unit 260 may approve a digital asset management application upon completion of approval from more than half of the approver accounts among the plurality of approver accounts.

The digital asset management unit 280 of the trustee terminal 200 may generate a master key 30 by combining at least two of the plurality of distribution keys 20 (S3). In an embodiment, the digital asset management unit 280 may generate the master key 30 by combining more than half of the distribution keys 20 among the plurality of distribution keys 20.

Multiple distribution keys 20 may be set to correspond to multiple approver accounts, but may also be distributed and stored independently of the approver accounts. When the multiple distribution keys 20 are set to correspond to multiple approver accounts, the master key 30 can be generated by the distributed keys corresponding to the approver accounts that approved the digital asset management application among the multiple approver accounts. there is.

When multiple distribution keys (20) are set regardless of the approver's account, two or more distribution keys among the multiple distribution keys (20) are selected and combined according to preset rules or at random to generate the master key (30), or the entire distribution key (30) is set. The master key 30 can also be generated by combining all of the distributed keys 20.

Finally, upon completion of verification by the account verification unit 260, the trustee terminal 200 can perform digital asset management (withdrawal processing, etc.) according to the digital asset management application by the digital asset management unit 280.

The digital asset management unit 280 of the trustee terminal 200 performs digital asset management (withdrawal processing) by signing the multisig wallet 40 with the master key 30 generated by combining a plurality of distribution keys 20. (S4, S5).

For example, when three or more approver accounts are set for an owner account, the trustee terminal 200 randomly selects two or more approver accounts among the three or more approver accounts and stores digital assets with the selected approver accounts. Approval for management may be requested.

Applicants cannot know which of three or more approvers will be requested to approve storage and management of digital assets. Therefore, since it is difficult for an applicant to fraudulently mock with all three or more approvers, theft of digital assets through prior mocking can be prevented.

Additionally, the trustee terminal 200 may determine the number of approver accounts to request approval among a plurality of approver accounts based on application information for storage and management of digital assets received through the applicant account.

For example, if the size of the digital asset requested to be transferred or withdrawn exceeds the preset standard asset size, the trustee terminal 200 requests approval from two or three or more approver accounts and approval is obtained through all approver accounts. Processing such as transfer or withdrawal of the corresponding digital asset can only be performed.

On the other hand, if the size of the digital asset requested to be transferred or withdrawn from the applicant terminal 120 is less than or equal to the preset standard asset size, the trustee terminal 200 requests approval from one approver account and approves it through that one approver account. Once this happens, processing such as transfer or withdrawal of digital assets can be performed.

Figure 8 is a flowchart showing the process of creating an applicant account and an approver account in a digital asset management method according to an embodiment of the present invention. Referring to FIGS. 1, 7A, 7B, and 8, when the creation of an owner account is requested from the consignor terminal 100 (S11), the owner account creation unit 210 of the consignor terminal 200 creates an owner account to be issued to the consignor. You can create an account (S12). The owner account information generated by the owner account creation unit 210 may be shared with the consignor terminal 100 and recorded in the consignee DB 300 (S13, S14).

When creating an owner account, the digital asset wallet register 220 can register a digital asset wallet (multisig wallet) for storing the digital assets requested from the trustor terminal 100. The digital asset wallet register 220 can register one or more digital asset wallets (multisig wallets) for each plurality of virtual currencies.

The digital asset wallet register 220 includes a first digital asset wallet (first multi-sig wallet) requested for registration by the trustor terminal and a second digital asset wallet (second multi-sig wallet) verified through digital asset history. Digital asset wallets (multisig wallets) can be registered as whitelisted digital asset wallets.

A digital asset wallet (multisig wallet) that can be selected by the applicant account among a plurality of digital asset wallets (multisig wallets) registered as whitelist digital asset wallets can be set for each applicant account.

When the creation of an applicant account and an approver account is requested from the consignor terminal 100 (S15), the applicant account creation unit 230 and the approver account creation unit 240 of the consignor terminal 200 generate the consignor terminal 100 related to the owner account. )'s request for creating an applicant account and an approver account can be created (S16)

At this time, the applicant account creation unit 230 and the approver account creation unit 240 may create an applicant account and an approver account for each plurality of virtual currency and digital asset wallets, respectively. The applicant account and the approver account created by the applicant account creation unit 230 and the approver account creation unit 240 may be shared with the consignor terminal 100 and recorded in the trustee DB 300 (S17, S18).

Figure 9 is a flowchart showing the digital asset management application and approval process of the digital asset management method according to an embodiment of the present invention. Referring to FIGS. 1, 7, and 9, the approval request unit 250 may receive a digital asset management application through the applicant account and request approval for the digital asset management application from the approver account (S21).

When applying for digital asset management, the applicant can access the applicant account and receive approval for application through two or more authentications. Security can be improved through such multi-factor authentication. Multi-factor authentication can be determined by two or more of various authentication methods, for example, password authentication, ID authentication, facial recognition, and biometric recognition (fingerprint recognition). Meanwhile, the number or type of authentication methods corresponding to multifactor authentication may be set differently for each applicant account.

When the digital asset management application is approved through the approver account (S22), the account verification unit 260 performs verification of the digital asset management application depending on whether the digital asset management application is approved by the approver account and verifies the digital asset. Unit 270 can check the digital assets stored in the digital asset wallet related to the digital asset management application (S23).

Multiple approvers who have been requested to approve digital asset management can each access the approver account and approve digital asset management through two or more authentications. Security can be improved through such multi-factor authentication. Multi-factor authentication can be determined by two or more of various authentication methods, for example, password authentication, ID authentication, facial recognition, and biometric recognition (fingerprint recognition). Meanwhile, the number or type of authentication methods corresponding to multifactor authentication may be set differently for each approver account.

Upon completion of verification and confirmation by the account verification unit 260 and the digital asset verification unit 270, the digital asset management unit 280 performs digital asset management according to the digital asset management application, and stores information related to digital asset management in the trustee database. It can be recorded at (300) (S24, S25).

According to the embodiment of the present invention described above, the account for managing digital assets is distributed into an applicant account and an approver account, and the customer company's key information is distributed and stored into a plurality of distributed keys using Shamir's Key Distribution method to be distributed to the customer company. It can prevent internal misconduct and reduce the risk of digital asset theft and hacking.

Figure 10 is a flowchart showing the digital asset management application and approval process of the digital asset management method according to another embodiment of the present invention. Referring to FIGS. 1 and 10 , the trustee terminal 200 may grant a plurality of approver accounts to each applicant account for the owner account (S32).

When the applicant terminal 120 of the consignor terminal 100 accesses the applicant account and applies for storage and management of digital assets, the trustee terminal 200 stores and manages the digital assets using one of the plurality of approver accounts. You can decide whether to request approval for etc.

In one embodiment, the trustee terminal 200 may determine the number of approver accounts to request approval among a plurality of approver accounts based on application information for storage and management of digital assets received through the applicant account (S34).

The trustee terminal 200 may randomly select one or more approver accounts from among a plurality of approver accounts as many as the number of approver accounts and request approval for storage and management of digital assets (S36).

If the size of the digital asset requested to be transferred or withdrawn exceeds the preset standard asset size, the trustee terminal 200 requests approval from two or three or more approver accounts and transfers the digital asset only if approval is obtained through all approver accounts. Processing such as transfer or withdrawal can be performed.

In contrast, if the size of the digital asset requested to be transferred or withdrawn from the applicant terminal 120 is less than or equal to the preset standard asset size, the trustee terminal 200 requests approval from one approver account and approves it through that one approver account. Once this happens, processing such as transfer or withdrawal of digital assets can be performed.

For example, if the trustee terminal 200 determines to randomly select two approver accounts based on the size of the digital asset requested by the applicant account, it randomly selects two approver accounts from three approver accounts and Approval for storage and management of digital assets can be requested through the approver account (S38).

Applicants cannot know which of the multiple approvers will be requested to approve storage and management of digital assets. Therefore, since it is difficult for the applicant to fraudulently mock all approvers, it is possible to prevent theft of digital assets from companies, etc. through prior mocking.

The embodiments described above may be implemented with hardware components, software components, and/or a combination of hardware components and software components. For example, the devices, methods, and components described in the embodiments may include, for example, a processor, a controller, an Arithmetic Logic Unit (ALU), a Digital Signal Processor, a microcomputer, and a Field Programmable Gate (FPGA). It may be implemented using one or more general-purpose computers or special-purpose computers, such as an array, PLU (Programmable Logic Unit), microprocessor, or any other device that can execute and respond to instructions.

The processing device may execute an operating system and one or more software applications that run on the operating system. Additionally, a processing device may access, store, manipulate, process, and generate data in response to the execution of software. For ease of understanding, a single processing device may be described as being used; however, those skilled in the art will understand that a processing device may include multiple processing elements and/or multiple types of processing elements. You will understand that it can be included.

For example, a processing device may include a plurality of processors or one processor and one controller. Additionally, other processing configurations, such as parallel processors, are also possible. Software may include a computer program, code, instructions, or a combination of one or more of these, and may configure a processing unit to operate as desired, or may be processed independently or collectively. You can command the device.

Software and/or data may be used on any type of machine, component, physical device, virtual equipment, computer storage medium or device to be interpreted by or to provide instructions or data to a processing device. It can be embodied in . Software may be distributed over networked computer systems and thus stored or executed in a distributed manner. Software and data may be stored on one or more computer-readable recording media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer-readable medium. Computer-readable media may include program instructions, data files, data structures, etc., singly or in combination. Program instructions recorded on the medium may be specially designed and configured for the embodiment or may be known and available to those skilled in the art of computer software.

Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CDROMs and DVDs, and ROM, RAM, and flash memory. Includes hardware devices specifically configured to store and execute program instructions, such as: Examples of program instructions include machine language code, such as that produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter, etc. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

As described above, although the embodiments have been described with limited examples and drawings, various modifications and variations can be made by those skilled in the art from the above description. For example, the described techniques are performed in a different order than the described method, and/or components of the described system, structure, device, circuit, etc. are combined or combined in a different form than the described method, or other components are used. Alternatively, appropriate results may be achieved even if substituted or substituted by an equivalent. Therefore, other implementations, other embodiments and equivalents of the claims also fall within the scope of the following claims.

10: Digital asset custody system
12: Payment account
20: Distribution key
30: master key
40: Multisig wallet
100: Consignor terminal
110: Administrator terminal
120: Applicant terminal
130: Approver terminal
200: Trustee terminal
210: Owner account creation unit
220: Digital asset wallet register
230: Applicant account creation unit
240: Approver account creation unit
250: Approval request section
260: Account verification unit
262: Verification logic
270: Digital asset confirmation unit
280: Digital Asset Management Department
290: control unit
300: Trustee DB
400: Smart contract
500: Recipient terminal

Claims (10)

A smart contract related to the custody system corresponding to the trustee terminal is authorized to withdraw digital assets from the trustee terminal and receives approval for withdrawal of digital assets;
When the custody system receives a request for withdrawal of digital assets from the consignor terminal, verifying data related to withdrawal of the digital assets by the verification logic of the custody system;
When the withdrawal-related data of the digital asset is verified, the custody system withdraws the transaction fee through the payment account of the custody system and pays the transaction fee to the smart contract instead of the trustor terminal;
The smart contract receives the transaction fee through the payment account, approves delivery of tokens related to the digital asset requested to be withdrawn by the consignor terminal, and transmits the digital asset to the recipient account;
Receiving a digital asset management application through an applicant account and requesting approval for the digital asset management application from a plurality of approver accounts by the approval request unit of the custody system;
performing verification of the digital asset management application according to whether the digital asset management application is approved by the plurality of approver accounts by the verification logic provided in the account verification unit of the custody system; and
Comprising the step of distributing and storing, by the custody system, a plurality of distributed keys for signing multi-sig wallets used for digital asset management in a distributed storage unit of the custody system,
The step of performing the verification includes approving the digital asset management application upon completion of approval from a set number of approver accounts among the plurality of approver accounts,
Creating an owner account - the owner account is an account granted to the consignor - in response to a request for creating an owner account from the consignor terminal, by the owner account creation unit of the custody system;
By the applicant account creation unit of the custody system, the applicant account is created according to a request for creating an applicant account of the consignor terminal related to the owner account - the applicant account is created in the trustee terminal according to a request for digital asset storage and management of the manager terminal. It is an account issued to an applicant by an applicant, and the applicant can apply for digital asset management including storage, transfer, and withdrawal of digital assets by accessing the applicant account using the applicant terminal - creating a; and
The plurality of approver accounts - the approver account is an account issued to an approver by the trustee terminal, according to a request for creating an approver account of the consignor terminal related to the owner account, by the approver account creation unit of the custody system, The approver accesses the approver account using an approver terminal, and further includes the step of generating a - that can approve the digital asset management application applied by the applicant terminal,
The digital asset includes a plurality of virtual currencies selected from virtual currencies including Bitcoin, Ethereum, and Klaytn,
Further comprising registering one or more multisig wallets for each of the plurality of virtual currencies by the digital asset wallet register of the custody system,
The step of creating the applicant account includes creating the applicant account for each of the plurality of virtual currencies and the multisig wallet,
The step of creating the plurality of approver accounts includes creating the approver account for each of the plurality of virtual currencies and the multisig wallet,
The steps for registering one or more multisig wallets are:
Comprising a step of registering a plurality of multisig wallets, including a first multisig wallet requested for registration by the trustor terminal and a second multisig wallet verified through digital asset history, as a whitelist digital asset wallet,
Among the plurality of multisig wallets registered as the whitelist digital asset wallets, a multisig wallet selectable by the applicant account is set for each applicant account,
granting, by the custody system, the plurality of approver accounts for each applicant account to the owner account;
When an application for a digital asset is received through the applicant account by the custody system, comparing the size of the requested digital asset with a preset reference asset size;
determining, by the custody system, the number of approver accounts to request approval among the plurality of approver accounts according to a comparison result between the size of the requested digital asset and the reference asset size;
randomly selecting, by the custody system, an approver account to process approval for a digital asset from among the plurality of approver accounts set for the applicant account as many as the number of approver accounts; and
Further comprising requesting approval for the digital asset from two or more approver accounts randomly selected by the custody system,
How to pay token withdrawal transaction fees using smart contracts. delete In claim 1,
The steps for transferring to the above beneficiary account are:
Upon completion of verification by the account verification unit, generating a master key by combining at least two distribution keys among the plurality of distribution keys; and
Comprising the step of signing the multi-sig wallet with the master key and transmitting the digital asset requested to be withdrawn by the consignor terminal to the beneficiary account,
How to pay token withdrawal transaction fees using smart contracts. In claim 1,
A method of paying token withdrawal transaction fees using a smart contract in which the multiple distributed keys are distributed and stored using Shamir's Key Distribution method. delete delete delete delete A computer program recorded on a computer-readable recording medium to execute the token withdrawal transaction fee payment method using the smart contract described in any one of claims 1, 3, and 4. delete

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