KR102364492B1 - Cloud-based payment guarantee management server using digital gold tokens and operating method thereof - Google Patents

Abstract

Disclosed are a digital gold token-based payment guarantee management server and an operating method thereof. The present invention provides digital gold that guarantees payment of withdrawal amount between a plurality of digital token issuance servers that issue a plurality of different digital tokens used as virtual currency and a plurality of bank servers that process a withdrawal event occurring at an ATM It relates to a token-based payment guarantee management server and an operating method thereof.

Description

A cloud-based payment guarantee management server using digital gold tokens and an operation method thereof

The present invention provides digital gold that guarantees payment of withdrawal amount between a plurality of digital token issuance servers that issue a plurality of different digital tokens used as virtual currency and a plurality of bank servers that process a withdrawal event occurring at an ATM It relates to a token-based payment guarantee management server and an operating method thereof.

Recently, interest in virtual currency rather than traditional cash is increasing. Virtual currency is a currency that can be used to trade goods by replacing cash, and is being distributed in the form of points or electronic gift certificates that can be used in specific shopping malls, or in the form of cryptocurrency using block chain technology.

Recently, operators issuing digital tokens as one of these virtual currencies are increasing. A digital token means a tokenized right to a predetermined asset, and may be generated by tokenizing data representing a right to a real asset, such as cash, real estate, or gold.

In this way, since digital tokens can be used as virtual currency, users who purchase digital tokens can use the digital tokens they purchase to purchase products at affiliated stores, such as online/offline shopping malls, and digital tokens at the affiliated stores that sold the product. By requesting cash settlement from the operator who issued the token, you can receive cash for the products you sell.

In this way, as interest in digital tokens increases, introduction of a service that enables cash withdrawal from ATMs (Automated Teller Machines) with digital tokens is being considered. In this regard, the service that enables cash withdrawals from ATMs using digital tokens can be processed as follows.

First, when a user attempts to withdraw cash based on a predetermined digital token by touching his/her user terminal at a specific ATM or inserting his/her own plastic card, the ATM performs a cash withdrawal event based on the digital token At this time, the bank server connected to the ATM through the network converts the amount of the digital token requested for withdrawal from the ATM into real money and controls the exchange amount to be paid to the user through the ATM. can Through this, the user can receive the exchange amount at the ATM.

In this way, when the cash payment for the amount of the digital token is completed through the ATM, the bank operating the bank server receives an amount corresponding to the amount of the digital token requested to be withdrawn from the ATM. The token issuer that issued the digital token requests final settlement of the amount of the digital token requested to be withdrawn from the ATM, and the token issuer requests the bank to withdraw the amount of the digital token requested from the ATM By setting the amount of real money, the cash withdrawal process based on digital tokens can be completed.

In such a digital token-based cash withdrawal service, the credit between the bank and the digital token issuer is one of the most important factors because the bank first pays cash to the user through an ATM and then receives the actual payment from the digital token issuer. .

If the bank first paid the user in the amount of real money for the amount of digital token requested to be withdrawn from the ATM, but later there was a problem with the issuer of the digital token, If the amount is not settled, the bank can incur huge losses. This problem may act as a factor preventing the activation of withdrawal services using digital tokens.

Therefore, when the bank server performs cash withdrawal processing based on digital tokens, by providing payment guarantees for the digital tokens, the credit between the bank and the issuer of the digital tokens can be maintained, so that the cash withdrawal service using the digital tokens is It is necessary to study the system technology to support it to be activated.

In addition, in the process of withdrawing money using digital tokens, it is necessary to check whether the user who intends to withdraw cash based on the digital token at the ATM is the user who actually received the digital token from the issuer of the digital token, and the ATM In that it is necessary to check whether the amount of the digital token requested for withdrawal is within the balance of the digital token that can be used by the user, in the process of withdrawing money using the digital token, it is linked with the digital token issuance server. It is also necessary to research the technology that supports the authentication process for the user.

US Patent Application Publication No. US2019/0028276 (2019.01.24) Republic of Korea Patent Publication No. 10-1949459 (2019.02.18)

The payment guarantee management server and its operating method according to the present invention, when a cash withdrawal event based on a predetermined digital token is processed through a bank server, accesses the digital token issuance server and the amount of the digital token requested for withdrawal proceeds with cash withdrawal By confirming whether it is within the balance of the digital token issued to the desired user, the authentication of the user is completed, and when the authentication of the user is completed, gold information corresponding to the amount requested for withdrawal is designated as a guarantee asset and the By creating a digital gold token with gold information and electronic signature and registering it in the blockchain network, we want to support payment guarantee for the amount of digital token requested for withdrawal.

Withdrawal amount between a plurality of digital token issuance servers that issue a plurality of different digital tokens used as virtual currency according to an embodiment of the present invention and a plurality of bank servers that process a withdrawal event occurring at an ATM A digital gold token-based payment guarantee management server that performs payment guarantee of An exchange rate table maintenance unit for storing and maintaining a table, a first digital token generated at a first ATM from a first bank server among the plurality of bank servers - The first digital token is one of the plurality of digital token issuing servers When a payment guarantee request for processing cash withdrawal based on - means a digital token issued by the first digital token issuance server, which is any one, An information requesting unit requesting transmission of identification information for a user and information on the amount of the first digital token requested to be withdrawn from the first ATM, and first identification information from the first bank server to the identification information for the user When information on the first amount is received as information on the amount of the first digital token at the same time as is received, while transmitting the first identification information and information on the first amount to the first digital token issuance server, A confirmation request unit that transmits a confirmation request as to whether the first amount is within the balance of the first digital token issued to the user, and the first identification information from the first digital token issuance server After the balance of the first digital token previously issued to the user is confirmed based on the basis, as it is confirmed that the first amount is within the balance of the first digital token previously issued to the user, the second 1 The first amount from the digital token issuance server When a confirmation completion message indicating that the amount is within the balance of the first digital token is received, based on the exchange rate between the first digital token and the real money recorded in the exchange rate table, A currency exchange amount calculating unit that calculates the exchange amount into real money, accessing a predetermined gold price information server to receive gold information corresponding to the exchange amount - the gold information means information consisting of gold content and weight; , a hash value is generated by applying the gold information as an input to a preset hash function, and digital gold including the hash value and the electronic signature value after generating an electronic signature value by encrypting the hash value with a preset private key A gold token generating unit for generating a token, after generating a guarantee confirmation message indicating that the gold asset according to the gold information is a guarantee asset for the first amount, the guarantee confirmation message, the digital gold token, and the first identification information , generates a transaction including the first amount, the exchange amount, information of the first bank server, and information of the first digital token issuance server, and among a plurality of node devices constituting a preset block chain network A payment guarantee completion message indicating that the payment guarantee for the first amount has been completed to the first bank server and the blockchain register that transmits the transaction and a registration request of the transaction to the blockchain network to any one node device and a message transmission unit for transmitting a withdrawal instruction message instructing to proceed with a process for processing a withdrawal in real money for an amount corresponding to the exchange amount while transmitting, wherein the first bank server manages the payment guarantee When the payment guarantee completion message and the withdrawal instruction message are received from the server, a control signal instructing to withdraw an amount corresponding to the exchange amount in real money to the first ATM is transmitted.

In addition, the withdrawal amount between a plurality of digital token issuing servers that issue a plurality of different digital tokens used as virtual currency according to an embodiment of the present invention and a plurality of bank servers that process a withdrawal event occurring at an ATM The operation method of the digital gold token-based payment guarantee management server for performing payment guarantee records the exchange rate for conversion into real money of each of the plurality of digital tokens issued by each of the plurality of digital token issuance servers. Storing and maintaining an exchange rate table, a first digital token generated at a first ATM from a first bank server among the plurality of bank servers, wherein the first digital token is any one of the plurality of digital token issuance servers When a payment guarantee request for processing cash withdrawal based on - means a digital token issued by the first digital token issuance server, requesting transmission of identification information about the user and information on the amount of the first digital token requested to be withdrawn from the first ATM; When information on a first amount is received as information on the amount of the first digital token, the first amount of identification information and information on the first amount are transmitted to the first digital token issuance server. transmitting a confirmation request as to whether or not the amount is within the balance of the first digital token issued to the user, based on the first identification information in the first digital token issuance server for the user After the balance of the previously issued first digital token is confirmed, the first amount is confirmed to be an amount within the balance of the first digital token issued to the user, the first digital token issuance server The first amount is the balance of the first digital token previously issued to the user When a confirmation completion message indicating that the amount corresponds to within calculating , accessing a predetermined gold price information server to receive gold information corresponding to the exchange amount, wherein the gold information means information consisting of a gold content and weight, and converting the gold information to a preset hash function generating a hash value by applying it as an input to , generating an electronic signature value by encrypting the hash value with a preset private key, and then generating a digital gold token including the hash value and the electronic signature value, the gold information After generating a guarantee confirmation message indicating that the gold asset is a guarantee asset for the first amount according to 1 Generates a transaction including information of a bank server and information of the first digital token issuance server, and transmits the transaction and the transaction to any one of a plurality of node devices constituting a preset block chain network. Transmitting a registration request to the block chain network and sending a payment guarantee completion message indicating that the payment guarantee for the first amount is completed to the first bank server and transmitting a withdrawal instruction message instructing to proceed with the withdrawal processing process in real money, wherein the first bank server receives the payment guarantee completion message and the withdrawal instruction message from the payment guarantee management server. , transmits a control signal instructing to withdraw an amount corresponding to the exchange amount in real money to the first ATM.

The payment guarantee management server and its operating method according to the present invention, when a cash withdrawal event based on a predetermined digital token is processed through a bank server, accesses the digital token issuance server and the amount of the digital token requested for withdrawal proceeds with cash withdrawal By confirming whether it is within the balance of the digital token issued to the desired user, the authentication of the user is completed, and when the authentication of the user is completed, gold information corresponding to the amount requested for withdrawal is designated as a guarantee asset and the By creating a digital gold token with gold information and electronic signature and registering it in the blockchain network, it is possible to support payment guarantee for the amount of digital token requested for withdrawal.

1 is a diagram illustrating the structure of a digital gold token-based payment guarantee management server according to an embodiment of the present invention.
2 is a flowchart illustrating an operation method of a digital gold token-based payment guarantee management server according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. These descriptions are not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. While describing each drawing, like reference numerals are used for similar components, and unless otherwise defined, all terms used in this specification, including technical or scientific terms, refer to those of ordinary skill in the art to which the present invention belongs. It has the same meaning as is commonly understood by those who have it.

In this document, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated. In addition, in various embodiments of the present invention, each of the components, functional blocks or means may be composed of one or more sub-components, and the electrical, electronic, and mechanical functions performed by each component are electronic. A circuit, an integrated circuit, an ASIC (Application Specific Integrated Circuit), etc. may be implemented as various well-known devices or mechanical elements, and may be implemented separately or two or more may be integrated into one.

On the other hand, the blocks in the accompanying block diagram or steps in the flowchart are computer program instructions that are loaded in a processor or memory of equipment capable of data processing, such as a general-purpose computer, a special-purpose computer, a portable notebook computer, and a network computer, and perform specified functions. can be interpreted as meaning Since these computer program instructions may be stored in a memory provided in a computer device or in a memory readable by a computer, the functions described in the blocks of the block diagrams or the steps of the flowcharts are produced as articles of manufacture containing instruction means for performing the same. it might be In addition, each block or each step may represent a module, segment, or portion of code comprising one or more executable instructions for executing the specified logical function(s). It should also be noted that, in some alternative embodiments, it is also possible for the functions recited in blocks or steps to be executed out of the prescribed order. For example, two blocks or steps shown one after another may be performed substantially simultaneously or in the reverse order, and in some cases, some blocks or steps may be omitted.

1 is a diagram illustrating the structure of a digital gold token-based payment guarantee management server according to an embodiment of the present invention.

The payment guarantee management server 110 according to the present invention processes a withdrawal event that occurs in a plurality of digital token issuance servers and ATM (Automated Teller Machine) that issue a plurality of different digital tokens used as virtual currency. A device for guaranteeing the payment of the withdrawal amount between a plurality of bank servers that It includes a generation unit 115 , a block chain registration unit 116 , and a message transmission unit 117 .

The exchange rate table maintaining unit 111 stores and maintains the exchange rate table in which the exchange rates for each of the plurality of digital tokens issued by each of the plurality of digital token issuance servers are recorded for exchange into real money.

For example, when the real currency is 'won', information may be recorded in the exchange rate table as shown in Table 1 below.

multiple digital tokens exchange rate digital token 1 20 won/token digital token 2 25 won/token digital token 3 30 won/token ... ...

If the user 130 brings his/her user terminal to the first ATM 102 or inserts his/her own plastic card, the first digital token issuance server which is one of the plurality of digital token issuance servers If it is assumed that cash withdrawal is attempted based on the first digital token, which is the digital token issued in step 100 , the first ATM 102 may generate a cash withdrawal event based on the first digital token.

At this time, the first bank server 101 connected to the first ATM 102 and the network is a payment guarantee according to the present invention in order to process the cash withdrawal based on the first digital token generated at the first ATM 102 . A payment guarantee request may be transmitted to the management server 110 .

In this way, when a payment guarantee request for processing cash withdrawal based on the first digital token generated in the first ATM 102 from the first bank server 101 to the payment guarantee management server 110 is received, the information requesting unit 112 indicates the identification information of the user 130 who intends to proceed with the withdrawal from the first ATM 102 to the first bank server 101 and the amount of the first digital token requested to be withdrawn from the first ATM 102 Request to transmit information about

Here, the identification information for the user 130 refers to the user ( 130) means unique information for identifying.

If the identification information for the user 130 who intends to withdraw from the first ATM 102 is 'identification information 1', the amount of the first digital token requested to be withdrawn from the first ATM 102 is ' In the case of '3,000 tokens', the first bank server 101 may transmit 'identification information 1' as identification information for the user 130 to the payment guarantee management server 110 , and withdraw from the first ATM 102 . '3,000 tokens' may be transmitted as the requested amount of the first digital token.

The confirmation request unit 113 receives the first identification information as identification information for the user 130 from the first bank server 101, and at the same time receives information on the first amount as information on the amount of the first digital token. When received, while transmitting the first identification information and information on the first amount to the first digital token issuance server 100 , the first amount of the first digital token issued to the user 130 Sends a request to confirm whether the amount is within the balance.

At this time, according to an embodiment of the present invention, the first digital token issuance server 100 provides identification information of a plurality of members and information on the balance of the first digital token previously issued to each of the plurality of members. It may include a balance information database stored in correspondence with each other.

In this regard, information may be stored in the balance information database as shown in Table 2 below.

Identification information of multiple members Balance of 1st Digital Token Identification 1 30,000 tokens Identification 2 45,000 tokens Identification 3 40,000 tokens ... ...

At this time, according to an embodiment of the present invention, when the first digital token issuance server 100 receives the confirmation request together with the first identification information and information on the first amount from the payment guarantee management server 110 , , after checking whether the first amount is within the balance of the first digital token corresponding to the first identification information with reference to the balance information database, the first amount corresponds to the first identification information When it is confirmed that the corresponding amount is within the balance of one digital token, a confirmation completion message may be generated and transmitted to the payment guarantee management server 110 .

For example, if the first identification information is 'identification information 1' and the first amount is '3,000 tokens', '3,000 tokens' corresponds to 'identification information 1' in the balance information database as shown in Table 2 above. Since the amount is within the '30,000 tokens' which is the stored balance, the first digital token issuance server 100 sees that the user 130 is the user 130 who can still use the first digital token, The confirmation completion message may be generated and transmitted to the payment guarantee management server 110 .

In this way, when the confirmation completion message is received from the first digital token issuance server 100 to the payment guarantee management server 110 , the exchange amount calculating unit 114 performs the exchange rate calculation unit 114 with the first digital token recorded in the exchange rate table and the An exchange amount of the first amount to the real money is calculated based on the exchange ratio between the real money.

In relation to this, if the exchange rate table is the same as in Table 1, the first digital token is 'digital token 1', and the first amount is '3,000 tokens', the exchange amount calculating unit 114 is ' You can calculate the exchange amount of 60,000 won.

The gold token generating unit 115 accesses a predetermined gold price information server 103 to receive gold information corresponding to the exchange amount, and applies the gold information as an input to a preset hash function to generate a hash value. , generates an electronic signature value by encrypting the hash value with a preset private key, and then generates a digital gold token including the hash value and the electronic signature value.

Here, the gold information means information composed of gold content and weight.

For example, if the exchange amount is '60,000 won' and the gold information corresponding to '60,000' received from the gold price information server 103 is 'gold content: 24K, gold weight: 0.82g', gold The token generator 115 applies the gold information as an input to the hash function to generate a hash value, encrypts the hash value with the private key to generate an electronic signature value, and then the hash value and the electronic signature value are By generating the included data token, the digital gold token can be generated.

In this way, when the digital gold token is generated, the blockchain registration unit 116 generates a guarantee confirmation message indicating that the gold asset according to the gold information is a guarantee asset for the first amount, and then the guarantee confirmation message, the digital Create a transaction including a gold token, the first identification information, the first amount, the exchange amount, the information of the first bank server 101, and the information of the first digital token issuance server 100, and a preset block The transaction and the registration request to the blockchain network 104 of the transaction are transmitted to any one node device among a plurality of node devices constituting the chain network 104 .

At this time, when the transaction is received, the one node device includes the transaction by generating a block including the transaction and propagating the block to other node devices constituting the blockchain network 104 . It can support so that the block can be stored in a plurality of node devices constituting the blockchain network 104.

After that, the message transmitting unit 117 transmits a payment guarantee completion message indicating that the payment guarantee for the first amount is completed to the first bank server 101 and at the same time, for the amount corresponding to the exchange amount A withdrawal instruction message instructing to proceed with the withdrawal processing process for the real money is transmitted.

That is, the payment guarantee management server 110 according to the present invention receives a payment guarantee request for performing cash withdrawal processing based on the first digital token from the first bank server 101, the amount of the first digital token Designates gold according to the amount of real money corresponding to the in-kind guarantee asset, generates a digital gold token with gold information and an electronic signature, and executes a transaction including the digital gold token and transaction-related information on the block chain It can be registered with the network 104 . Due to this, even if there is a risk that the first bank server 101 operating the first ATM 102 may not receive the withdrawal amount from the issuer operating the first digital token issuance server 100, the payment guarantee management server ( 110), since the operating company guarantees the amount based on gold, it can provide a cash withdrawal service for cash withdrawal processing based on digital tokens with confidence.

At this time, when the payment guarantee completion message and the withdrawal instruction message are received from the payment guarantee management server 110 , the first bank server 101 sends an amount corresponding to the exchange amount to the first ATM 102 . A control signal instructing to withdraw in real money may be transmitted.

In relation to this, as in the above example, when the exchange amount is '60,000 won', the first bank server 101 withdraws the amount of '60,000 won' to the first ATM 102 based on real money. It is possible to transmit a control signal instructing to do so. Accordingly, the user 130 can receive '60,000 won' at the first ATM 102 .

At this time, according to an embodiment of the present invention, the payment guarantee management server 110 may further include a subtraction processing unit (123).

After the control signal is transmitted from the first bank server 101 to the first ATM 102, the deduction processing unit 123 converts the amount corresponding to the exchange amount in the first ATM 102 into the real money. When a withdrawal completion message is received from the first bank server 101 from the first bank server 101 indicating that the withdrawal process for the real money for the amount corresponding to the exchange amount at the first ATM 102 is completed, the second 1 transmits a deduction instruction message instructing to deduct the first amount from the balance of the first digital token issued to the user 130 to the 1 digital token issuance server 100 .

For example, when the first amount is '3,000 tokens' as in the above example, the subtraction processing unit 123 receives the withdrawal completion message from the first bank server 101, the first digital token issuance server 100 ) to the user 130 may transmit a deduction instruction message instructing to deduct the first amount of '3,000 tokens' from the balance of the previously issued first digital token.

At this time, when the first digital token issuance server 100 receives the deduction instruction message from the payment guarantee management server 110, 'identification information 1' that is the identification information of the user 130 in the balance information database as shown in Table 2 By subtracting '3,000 tokens' from the balance of the first digital token called '30,000 tokens' stored in correspondence with '27,000 tokens', it can be changed to '27,000 tokens'.

As a result, the payment guarantee management server 110 according to the present invention connects to the digital token issuance server when a predetermined digital token-based withdrawal event processing is in progress in the bank server, and the specific amount of the digital token requested to be withdrawn is issued to the user. By checking whether it is within the balance of the digital token, authentication for the user can be completed, and the gold information corresponding to the specified amount is designated as a guarantee asset to generate a digital gold token including the gold information and electronic signature. By registering this in the blockchain network, it is possible to support the payment guarantee for the amount of digital tokens requested for withdrawal.

According to an embodiment of the present invention, when the confirmation request unit 113 transmits the first identification information and information about the first amount to the first digital token issuance server 100, to prevent information from being exposed As a configuration for this, it may include a matrix storage unit 118 , a data matrix generation unit 119 , a matrix generation unit 120 , an encryption matrix generation unit 121 , and a data encryption transmission unit 122 .

First, a predetermined private key matrix is pre-stored in the first digital token issuance server 100 to perform secure communication with the payment guarantee management server 110 . The private key matrix is a matrix having a randomly generated numerical value as a component, and is a matrix having a size of n x k (n and k are different natural numbers of 2 or more).

In this case, the matrix storage unit 118 stores a preset public key matrix having a preset seed value for generating a pseudo-random number and a size of n x k.

Here, the public key matrix is an nxn pseudo-random matrix having n ² pseudo-random numbers generated based on the seed value as components, and a nxk size pre-issued and stored in the first digital token issuance server 100 . It means a matrix generated by multiplying the private key matrix with , and is a matrix generated by performing a matrix operation according to Equation 1 below.

Here, O is the public key matrix, N is the pseudo-random matrix, and P is the private key matrix.

When the data matrix generator 119 receives the first identification information and information on the first amount from the first bank server 101, data constituting the first identification information and information on the first amount Concatenated data is generated by concatenating the data constituting , and the concatenated data is divided into k ² pieces of partial data, and then a kxk data matrix having the k ² pieces of partial data as components is generated.

For example, if the size of the concatenated data is 144 bytes and k is 6, the data matrix generator 119 divides the concatenated data of 144 bytes into 36 pieces of partial data having a size of 4 bytes. By designating 36 pieces of partial data one by one as a matrix component, a data matrix having a size of 6 x 6 can be generated.

When the data matrix is generated, the matrix generator 120 generates the n ² pseudorandom numbers based on the seed value, and generates the nxn pseudorandom matrix having the n ² pseudorandom numbers as components. , generate a random matrix composed of random components having a size of kxn.

Then, the encryption matrix generator 121 generates a first encryption matrix having a size of kxn by multiplying the random matrix and the pseudo-random matrix, multiplying the random matrix and the public key matrix, and then adding the data matrix By doing so, a second encryption matrix having a size of kxk is generated.

In relation to this, when the random matrix is R, the public key matrix is O, the pseudo-random number matrix is N, and the data matrix is D, the encryption matrix generator 121 is A first encryption matrix C ₁ and the second encryption matrix C ₂ may be generated.

In this way, when the first encryption matrix and the second encryption matrix are generated, the data encryption transmission unit 122 converts the first encryption matrix and the second encryption matrix to the first identification information and information on the first amount. It is designated as encrypted data of , and transmitted to the first digital token issuance server 100 .

At this time, according to an embodiment of the present invention, when the first digital token issuance server 100 receives the encrypted data from the payment guarantee management server 110, the first encryption matrix and the second encryption from the encrypted data After confirming the matrix, extracting the private key matrix stored in the first digital token issuance server 100, and multiplying the first encryption matrix and the private key matrix to generate an operation matrix having a size of kxk, By subtracting the operation matrix from the second encryption matrix, the data matrix may be restored.

In this regard, the first digital token issuance server 100 may restore the data matrix D by performing a matrix operation according to Equation 3 below.

Here, D, which is the result of the operation in Equation 3, may be calculated by the calculation process as in Equation 4 below.

That is, according to Equation 3, the first digital token issuance server 100 generates an operation matrix having a size of kxk by multiplying the first encryption matrix C ₁ and the private key matrix P, and then the second encryption matrix C By subtracting the operation matrix from ₂ , the data matrix D having a size of kxk may be reconstructed through an operation process as in Equation 4 above.

In this way, when the data matrix is restored, the first digital token issuance server 100 extracts the k ² pieces of partial data included as a component of the restored data matrix, and combines the extracted k ² pieces of partial data to separate the data constituting the first identification information and the data constituting the information on the first amount from the restored concatenated data after restoring the concatenated data, whereby the first identification information and the first amount information can be restored.

In this regard, as in the above example, when k is 6 and the size of partial data is 4 bytes, the first digital token issuance server 100 is included as a component in the data matrix having a size of 6 x 6 By extracting the 36 pieces of partial data and combining all of the 36 pieces of data, it is possible to restore the concatenated data of 144 bytes.

Then, the first digital token issuance server 100 separates and extracts the data constituting the first identification information connected to the 144 bytes of concatenated data and the data constituting the information on the first amount by separating and extracting the first 1 identification information and information on the first amount can be restored It may be checked whether one amount is within the balance of the first digital token corresponding to the first identification information.

2 is a view showing the withdrawal amount between a plurality of digital token issuing servers that issue a plurality of different digital tokens used as virtual currency according to an embodiment of the present invention and a plurality of bank servers that process a withdrawal event occurring in an ATM It is a flowchart illustrating an operation method of a digital gold token-based payment guarantee management server that performs a payment guarantee.

In step S210, an exchange rate table in which an exchange rate for exchange into real money of each of the plurality of digital tokens issued by each of the plurality of digital token issuance servers is recorded is stored and maintained.

In step S220, a first digital token generated at a first ATM from a first bank server among the plurality of bank servers (the first digital token is a first digital token that is any one of the plurality of digital token issuance servers) When a payment guarantee request for processing cash withdrawal based on the digital token issued by the issuing server is received, identification information about the user who intends to proceed with the withdrawal from the first ATM to the first bank server and the The first ATM requests transmission of information about the amount of the first digital token requested to be withdrawn.

In step S230, when the first identification information is received as the identification information for the user from the first bank server and information on the first amount is received as information on the amount of the first digital token at the same time, the first While transmitting the first identification information and information on the first amount to the digital token issuance server, it is confirmed whether the first amount is within the balance of the first digital token previously issued to the user send the request

In step S240, the first digital token issuance server confirms the balance of the first digital token issued to the user based on the first identification information, and then the first amount is issued to the user As it is confirmed that the amount is within the balance of the first digital token, the first digital token issuance server indicates that the first amount is within the balance of the first digital token issued to the user When the confirmation completion message of

In step S250, a predetermined gold price information server is accessed to receive gold information corresponding to the exchange amount (the gold information means information composed of gold content and weight), and the gold information is converted into a preset hash function. is applied as an input to generate a hash value, the hash value is encrypted with a preset private key to generate an electronic signature value, and a digital gold token including the hash value and the electronic signature value is generated.

In step S260, after generating a guarantee confirmation message indicating that the gold asset according to the gold information is a guarantee asset for the first amount, the guarantee confirmation message, the digital gold token, the first identification information, and the first Any one of a plurality of node devices constituting a preset block chain network that generates a transaction including the amount, the exchange amount, information of the first bank server, and information of the first digital token issuance server Send the transaction and the registration request of the transaction to the blockchain network to the device.

In step S270, a payment guarantee completion message indicating that the payment guarantee for the first amount is completed is transmitted to the first bank server, and at the same time, an amount corresponding to the exchange amount is processed with the real money Sends a withdrawal instruction message instructing the process to proceed.

At this time, when the payment guarantee completion message and the withdrawal instruction message are received from the payment guarantee management server, the first bank server instructs the first ATM to withdraw an amount corresponding to the exchange amount in real money control signal can be transmitted.

At this time, according to an embodiment of the present invention, when the first digital token issuance server receives the confirmation request together with the first identification information and information on the first amount from the payment guarantee management server, a plurality of members The first amount corresponds to the first identification information with reference to the balance information database in which the identification information of the members and the information on the balance of the first digital token previously issued for each of the plurality of members are stored in correspondence with each other After confirming whether the amount is within the balance of the first digital token being to transmit to the payment guarantee management server.

In addition, according to an embodiment of the present invention, in step S230, a preset seed value for generating a pseudo-random number and a preset public key matrix having a size of nxk (n and k are two or more different natural numbers) ( The public key matrix includes a pseudo-random matrix of size nxn having n ² pseudorandom numbers generated based on the seed value as components, and a private key having a size of nxk that is pre-issued and stored in the first digital token issuance server. maintaining a matrix storage unit in which a matrix is generated by multiplying matrices with each other), when the first identification information and information on the first amount are received from the first bank server, the first identification information Concatenated data is generated by concatenating the data constituting the data and the data constituting the information on the first amount, the concatenated data is divided into k ² pieces of partial data, and the kxk size having the k ² pieces of partial data as components generating a data matrix of , when the data matrix is generated, generating the n ² pseudorandom numbers based on the seed value, and generating the nxn pseudorandom number matrix having the n ² pseudorandom numbers as components and generating a random matrix composed of random components having a size of kxn, multiplying the random matrix and the pseudo-random matrix to generate a first encryption matrix having a size of kxn, the random matrix and the public key generating a second encryption matrix having a size of kxk by multiplying a matrix and then adding the data matrix, and combining the first encryption matrix and the second encryption matrix with the first identification information and information on the first amount It may include the step of transmitting to the first digital token issuance server by designating the encrypted data of

At this time, according to an embodiment of the present invention, the first digital token issuance server checks the first encryption matrix and the second encryption matrix from the encrypted data when the encrypted data is received from the payment guarantee management server, , extracts the private key matrix stored in the first digital token issuance server, generates an operation matrix having a size of kxk by multiplying the first encryption matrix and the private key matrix, and then in the second encryption matrix By subtracting an operation matrix, the data matrix is restored, and when the data matrix is restored, the k ² pieces of partial data included as components of the restored data matrix are extracted, and the extracted k ² pieces of partial data are extracted. By combining and recovering the concatenated data, data constituting the first identification information and data constituting the information on the first amount are separated and extracted from the restored concatenated data, whereby the first identification information and the first Information about the amount can be restored.

In addition, according to an embodiment of the present invention, in the method of operating the payment guarantee management server, after the control signal is transmitted from the first bank server to the first ATM, the first ATM corresponds to the exchange amount As the amount to be paid is withdrawn in real money, a withdrawal completion message is sent from the first bank server to indicate that the withdrawal process in real money for the amount corresponding to the exchange amount at the first ATM has been completed. When received, the method may further include transmitting a deduction instruction message instructing to deduct the first amount from the balance of the first digital token previously issued to the user to the first digital token issuance server. .

Above, the operation method of the digital gold token-based payment guarantee management server according to an embodiment of the present invention has been described with reference to FIG. 2 . Here, the operation method of the digital gold token-based payment guarantee management server according to an embodiment of the present invention may correspond to the configuration of the operation of the digital gold token-based payment guarantee management server 110 described with reference to FIG. 1 . Therefore, a more detailed description thereof will be omitted.

The method of operating a digital gold token-based payment guarantee management server according to an embodiment of the present invention may be implemented as a computer program stored in a storage medium for execution through combination with a computer.

In addition, the operating method of the digital gold token-based payment guarantee management server according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the present invention, or may be known and available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floppy disks. - includes magneto-optical media, and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like.

As described above, in the present invention, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims described below, but also all of the claims and all equivalents or equivalent modifications to the claims will be said to belong to the scope of the spirit of the present invention. .

110: digital gold token-based payment guarantee management server
111: exchange rate table maintenance unit 112: information request unit
113: confirmation request unit 114: exchange amount calculation unit
115: gold token generator 116: blockchain register
117: message transmission unit 118: matrix storage unit
119: data matrix generator 120: matrix generator
121: encryption matrix generation unit 122: data encryption transmission unit
123: subtraction processing unit
100: first digital token issuance server
101: first bank server
102: first ATM
103: gold price information server
104: Blockchain Network
130: user

Claims (12)

Payment guarantee of withdrawal amount between a plurality of digital token issuance servers that issue a plurality of different digital tokens used as virtual currency and a plurality of bank servers that process withdrawal events that occur in ATM (Automated Teller Machine) In the digital gold token-based payment guarantee management server that performs
an exchange rate table maintaining unit for storing and maintaining an exchange rate table in which an exchange rate for exchange into real money of each of the plurality of digital tokens issued by each of the plurality of digital token issuance servers is recorded;
A first digital token generated at a first ATM from a first bank server among the plurality of bank servers, wherein the first digital token is issued by a first digital token issuance server that is one of the plurality of digital token issuance servers means a digital token - when a payment guarantee request is received to process a cash withdrawal based on an information request unit for requesting transmission of information on the requested amount of the first digital token;
When the first identification information is received as the identification information for the user from the first bank server and information about the first amount is received as information about the amount of the first digital token at the same time, the first digital token issuance server While transmitting the first identification information and information on the first amount, confirming that the first amount is an amount that is within the balance of the first digital token issued to the user request department;
After the balance of the first digital token previously issued to the user is checked in the first digital token issuance server based on the first identification information, the first amount of the first digital token issued to the user As it is confirmed that the amount is within the balance of the token, a confirmation completion message indicating that the first amount is within the balance of the first digital token previously issued to the user from the first digital token issuance server an exchange amount calculating unit that, upon receiving, calculates an exchange amount of the first amount into the real money based on the exchange rate between the first digital token and the real money recorded in the exchange rate table;
By accessing a predetermined gold price information server, receiving gold information corresponding to the exchange amount, the gold information means information consisting of gold content and weight, and applying the gold information as input to a preset hash function. a gold token generator for generating a hash value, encrypting the hash value with a preset private key to generate an electronic signature value, and then generating a digital gold token including the hash value and the electronic signature value;
After generating a guarantee confirmation message indicating that the gold asset according to the gold information is a guarantee asset for the first amount, the guarantee confirmation message, the digital gold token, the first identification information, the first amount, and the exchange amount , generates a transaction including information of the first bank server and information of the first digital token issuance server, and performs the transaction and a block chain registration unit that transmits a registration request of the transaction to the block chain network; and
Sending a payment guarantee completion message indicating that the payment guarantee for the first amount has been completed to the first bank server and at the same time instructing the first bank server to proceed with the process of processing the withdrawal in real money for the amount corresponding to the exchange amount A message transmission unit that sends a withdrawal instruction message to
including,
The confirmation request unit
A preset public key matrix having a preset seed value for generating a pseudo-random number and a size of nxk (n and k are different natural numbers of 2 or more) - The public key matrix is generated based on the seed value It is a matrix generated by multiplying a pseudorandom matrix of size nxn having n ² pseudorandom numbers as components and a private key matrix having a size of nxk that is pre-issued and stored in the first digital token issuance server - is stored matrix storage;
When the first identification information and information on the first amount are received from the first bank server, data constituting the first identification information and data constituting the information on the first amount are concatenated by concatenating a data matrix generator for generating concatenated data, dividing the concatenated data into k ² pieces of partial data, and then generating a kxk data matrix having the k ² pieces of partial data as components;
When the data matrix is generated, the n ² pseudo-random numbers are generated based on the seed value, and the n-by-n pseudo-random matrix having the n ² pseudo-random numbers as components is generated, and a random having a size of kxn is generated. a matrix generator for generating a random matrix composed of one component;
A second encryption matrix having a size of kxk is generated by multiplying the random matrix and the pseudo-random matrix to generate a first encryption matrix having a size of kxn, multiplying the random matrix by the public key matrix, and then adding the data matrix Encryption matrix generator for generating; and
A data encryption transmission unit for designating the first encryption matrix and the second encryption matrix as encrypted data of the first identification information and information on the first amount, and transmitting it to the first digital token issuance server
includes,
The first bank server
When the payment guarantee completion message and the withdrawal instruction message are received from the payment guarantee management server, a control signal instructing to withdraw an amount corresponding to the exchange amount in real money to the first ATM is transmitted. A digital gold token-based payment guarantee management server. According to claim 1,
The first digital token issuance server
When the confirmation request is received together with the first identification information and information on the first amount from the payment guarantee management server, identification information of a plurality of members and the first digital issued previously for each of the plurality of members After checking whether the first amount is within the balance of the first digital token corresponding to the first identification information by referring to the balance information database in which the information on the balance of the token is stored in correspondence with each other, the first amount digital gold token-based payment, characterized in that when it is confirmed that the amount is within the balance of the first digital token corresponding to the first identification information, the confirmation completion message is generated and transmitted to the payment guarantee management server Warranty Management Server. delete According to claim 1,
The first digital token issuance server
When the encrypted data is received from the payment guarantee management server, the first encryption matrix and the second encryption matrix are checked from the encrypted data, and the private key matrix stored in the first digital token issuance server is extracted, , the first encryption matrix and the private key matrix are multiplied to generate an operation matrix having a size of kxk, and then the data matrix is restored by subtracting the operation matrix from the second encryption matrix, and when the data matrix is restored , extracting the k ² pieces of partial data included as components of the reconstructed data matrix, reconstructing the concatenated data by combining the extracted k ² pieces of partial data, and then the first identification from the reconstructed concatenated data Digital gold token-based payment guarantee management, characterized in that the first identification information and information on the first amount are restored by separating and extracting data constituting information and data constituting information on the first amount server. According to claim 1,
After the control signal is transmitted from the first bank server to the first ATM, as an amount corresponding to the exchange amount is withdrawn in the real money at the first ATM, from the first bank server, the When a withdrawal completion message is received from the first ATM indicating that the withdrawal processing for the real money for the amount corresponding to the exchange amount is completed, the first digital token issuance server to the first digital token issuance server A subtraction processing unit that transmits a subtraction instruction message instructing to deduct the first amount from the balance of 1 digital token
A digital gold token-based payment guarantee management server further comprising a. Payment guarantee of withdrawal amount between a plurality of digital token issuance servers that issue a plurality of different digital tokens used as virtual currency and a plurality of bank servers that process withdrawal events that occur in ATM (Automated Teller Machine) In the method of operating a digital gold token-based payment guarantee management server for performing
storing and maintaining an exchange rate table in which an exchange rate for exchange into real money of each of the plurality of digital tokens issued by each of the plurality of digital token issuance servers is recorded;
A first digital token generated at a first ATM from a first bank server among the plurality of bank servers, wherein the first digital token is issued by a first digital token issuance server that is one of the plurality of digital token issuance servers means a digital token - when a payment guarantee request is received to process a cash withdrawal based on requesting transmission of information about the requested amount of the first digital token;
When the first identification information is received as the identification information for the user from the first bank server and information about the first amount is received as information about the amount of the first digital token at the same time, the first digital token issuance server While transmitting the first identification information and information on the first amount, transmitting a confirmation request as to whether the first amount is within the balance of the first digital token issued to the user ;
After the balance of the first digital token previously issued to the user is checked in the first digital token issuance server based on the first identification information, the first amount of the first digital token issued to the user As it is confirmed that the amount is within the balance of the token, a confirmation completion message indicating that the first amount is within the balance of the first digital token previously issued to the user from the first digital token issuance server when received, calculating an exchange amount for the first amount into the real money based on the exchange rate between the first digital token and the real money recorded in the exchange rate table;
By accessing a predetermined gold price information server, receiving gold information corresponding to the exchange amount, the gold information means information consisting of gold content and weight, and applying the gold information as input to a preset hash function. generating a hash value, encrypting the hash value with a preset private key to generate an electronic signature value, and then generating a digital gold token including the hash value and the electronic signature value;
After generating a guarantee confirmation message indicating that the gold asset according to the gold information is a guarantee asset for the first amount, the guarantee confirmation message, the digital gold token, the first identification information, the first amount, and the exchange amount , generates a transaction including information of the first bank server and information of the first digital token issuance server, and performs the transaction and sending a registration request of the transaction to the blockchain network; and
Sending a payment guarantee completion message indicating that the payment guarantee for the first amount has been completed to the first bank server and at the same time instructing the first bank server to proceed with the process of processing the withdrawal in real money for the amount corresponding to the exchange amount Sending a withdrawal instruction message to
including,
The step of sending the confirmation request is
A preset public key matrix having a preset seed value for generating a pseudo-random number and a size of nxk (n and k are different natural numbers of 2 or more) - The public key matrix is generated based on the seed value It is a matrix generated by multiplying a pseudorandom matrix of size nxn having n ² pseudorandom numbers as components and a private key matrix having a size of nxk that is pre-issued and stored in the first digital token issuance server - is stored maintaining a matrix storage unit;
When the first identification information and information on the first amount are received from the first bank server, data constituting the first identification information and data constituting the information on the first amount are concatenated by concatenating generating concatenated data, dividing the concatenated data into k ² pieces of partial data, and then generating a kxk data matrix having the k ² pieces of partial data as components;
When the data matrix is generated, the n ² pseudo-random numbers are generated based on the seed value, and the n-by-n pseudo-random matrix having the n ² pseudo-random numbers as components is generated, and a random having a size of kxn is generated. generating a random matrix composed of one component;
A second encryption matrix having a size of kxk is generated by multiplying the random matrix and the pseudo-random matrix to generate a first encryption matrix having a size of kxn, multiplying the random matrix by the public key matrix, and then adding the data matrix creating a; and
Designating the first encryption matrix and the second encryption matrix as encrypted data of the first identification information and information on the first amount and transmitting the first digital token issuance server to the first digital token issuance server
includes,
The first bank server
When the payment guarantee completion message and the withdrawal instruction message are received from the payment guarantee management server, a control signal instructing to withdraw an amount corresponding to the exchange amount in real money to the first ATM is transmitted. How to operate a digital gold token-based payment guarantee management server. 7. The method of claim 6,
The first digital token issuance server
When the confirmation request is received together with the first identification information and information on the first amount from the payment guarantee management server, identification information of a plurality of members and the first digital issued previously for each of the plurality of members After checking whether the first amount is within the balance of the first digital token corresponding to the first identification information by referring to the balance information database in which the information on the balance of the token is stored in correspondence with each other, the first amount digital gold token-based payment, characterized in that when it is confirmed that the amount is within the balance of the first digital token corresponding to the first identification information, the confirmation completion message is generated and transmitted to the payment guarantee management server How the Warranty Management Server works. delete 7. The method of claim 6,
The first digital token issuance server
When the encrypted data is received from the payment guarantee management server, the first encryption matrix and the second encryption matrix are checked from the encrypted data, and the private key matrix stored in the first digital token issuance server is extracted, , the first encryption matrix and the private key matrix are multiplied to generate an operation matrix having a size of kxk, and then the data matrix is restored by subtracting the operation matrix from the second encryption matrix, and when the data matrix is restored , extracting the k ² pieces of partial data included as components of the reconstructed data matrix, reconstructing the concatenated data by combining the extracted k ² pieces of partial data, and then the first identification from the reconstructed concatenated data Digital gold token-based payment guarantee management, characterized in that the first identification information and information on the first amount are restored by separating and extracting data constituting information and data constituting information on the first amount How the server works. 7. The method of claim 6,
After the control signal is transmitted from the first bank server to the first ATM, as an amount corresponding to the exchange amount is withdrawn in the real money at the first ATM, from the first bank server, the When a withdrawal completion message is received from the first ATM indicating that the withdrawal processing for the real money for the amount corresponding to the exchange amount is completed, the first digital token issuance server to the first digital token issuance server 1 Transmitting a deduction instruction message instructing to deduct the first amount from the balance of the digital token
The operation method of the digital gold token-based payment guarantee management server further comprising a. A computer-readable recording medium recording a computer program for executing the method of any one of claims 6, 7, 9, or 10 through combination with a computer. A computer program stored in a storage medium for executing the method of any one of claims 6, 7, 9 or 10 in combination with a computer.

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