KR20160150278A - Financial institution document verification system that is based on the block chain - Google Patents

Abstract

The present invention relates to a method for verifying forgery/modification of proof documents of a financial institution based on a block chain, and more specifically, to a method comprising the following steps of: (a) in a state that transaction information for verifying proof documents generated by using proof document information for a customer is recorded in a block chain storing server and transaction identification (ID) information corresponding to the transaction information for verifying the proof documents is managed, a financial institution proof document authentication management server transmitting the transaction ID corresponding to the transaction information for verifying the proof documents to the block chain storing server when a request for the proof document information for the customer is detected; (b) the financial institution proof document authentication management server acquiring the transaction information for verifying the proof documents corresponding to the transaction ID from the block chain storing server; (c) the financial institution proof document authentication management server comparing (i) an index hash value for comparing the proof document acquired from the proof document information for the customer corresponding to the request with (ii) an index hash value for verifying the proof document acquired from the transaction information for verifying the proof documents; and (d) the financial institution proof document authentication management server providing verification information generated by referring to a comparison result between the index hash value for comparing the proof document and the index hash value for verifying the proof document.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a financial institution document verification system, and more particularly,

The present invention is based on a block chain provided with a means for verifying whether a forgery or falsification has been made against the contents of the first generation of the certificate provided to the customer by the financial institution and the contents issued at the request of the customer in the future And a system and method for verifying the forgery of a financial institution.

Financial transactions channels and methods are diversified and information relating to the financial transactions is actively utilized in various fields and financial institutions are provided with a balance certificate, a debt certificate, a payment guarantee certificate, a transaction status certificate, a financial information provider, The issuance of the certificate containing the certificate is frequently occurring.

For this reason, if the customer desires to issue a certificate, he / she includes the problem of inconvenience and inconvenience such as having to visit the financial institution window and apply.

The conventional certificate issuing system (Korean Patent Laid-Open No. 10-2009-0000740, publication date: Jan. 08, 2009) proposes a system for issuing a certificate including predetermined customer information, a certificate type, Information extracting means for extracting at least one certificate configuration information corresponding to the customer information and issuance application certificate information from a predetermined ledger (or database); And a certificate issuing means for issuing the certificate electronic document stored in the electronic document repository to the certificate destination terminal by issuing the certificate electronic document.

Through this, the customer can get his / her certificate in real time when he / she requests the desired certificate from the remote terminal without visiting the financial institution directly.

In general, however, the seal of the financial institution manager, stamp or stamp is stamped to prove that the certificate issued is not forged.

Thus, the conventional certificate issuing system has a problem that it can not provide a person in charge of a responsible person such as a stamp, a stamp, or a stamp, which is a means for confirming whether or not a certificate is falsified.

This problem has also been solved through a document issuance and authentication system using a conventional watermarking technique (Korean Patent Laid-Open No. 10-2003-0020675, published on Mar. 10, 2003).

That is, a document issuance and authentication system using a conventional watermarking technique inserts a watermark into a certificate issued on-line and issues it, and an institution or a company that requests the submission of the certificate issues a watermark extraction algorithm to the certificate An authentication system based on watermarking technology is provided that authenticates the integrity and legitimacy of the certificate through the extraction of the inserted watermark.

However, in the document issuing and authentication system using the conventional watermarking technology, since the forgery and falsification of the certificate is detected only by inserting the watermark inserted into the certificate, the user is forged and falsified in the certificate issued for the first time, The watermark is recognized as a normal certificate which is not forgery-proofed, and thus a problem that the forgery detection system can not be operated completely is derived.

Patent Document 1: Korean Patent Application Publication No. 10-2009-0000740 (Published Date: January 08, 2009) Patent Document 2: Korean Patent Application Publication No. 10-2003-0020675 (Published Date: March 10, 2003)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a system and method for providing a financial institution, A method and system for verifying a forgery and falsification of a financial institution based on a block chain provided with a means for verifying whether a forgery or falsification has been made in advance.

According to an aspect of the present invention, there is provided a method of forgery verification of a financial institution certificate document based on a block chain, the method comprising the steps of: (a) When a request for the customer provision use certificate information is sensed in a state in which transaction ID information corresponding to the transaction information for verification is recorded and recorded in the holding server, the financial institution issuance certificate management server transmits, Transmitting the transaction ID information corresponding to the verification transaction information to the block chain holding server; (b) the financial institution certificate authentication management server includes: obtaining transaction certificate transaction information corresponding to the transaction ID information from the block chain holding server; (c) The financial institution certificate authentication management server includes: (i) a certificate-to-cost index hash value obtained from the customer-provided certificate information corresponding to the request; and (ii) Comparing index hash values for verification of the acquired certificate; And (d) the financial institution certificate authentication management server includes a step of providing the generated verification information with reference to the comparison result of the index-hash value of the certificate versus the index hash value for verification of the certificate .

According to another aspect of the present invention, there is provided a financial institution certificate management server for performing forgery verification of a financial institution identification document based on a block chain, the server comprising: When a request for the customer provisioning certificate information is detected in a state in which the transaction information for transaction is recorded in the block chain holding server and the transaction ID information corresponding to the transaction information for verifying the certificate is managed, A communication unit that transmits the transaction ID information corresponding to the information to the block chain holding server and obtains transaction information for certificate verification corresponding to the transaction ID information from the block chain holding server; (i) comparing the index-hash value of the certificate obtained from the customer-supplied certificate information corresponding to the request with the index-hash value for certificate verification obtained from the transaction-information for transaction verification, And generating a verification information with reference to a comparison result between the certificate versus cost index hash value and the index verification hash value for verification.

The present invention can be applied to a watermark which is not verified by means of verifying forgery or corruption in preparation for the contents of the first certificate generated by the financial institution to the customer and the content issued at the request of the customer in the future It is possible to verify whether or not the proof document issued by the financial institution is tampered with, regardless of whether or not the document is correct.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a financial institution authentication document forgery verification system based on a block chain of the present invention;
FIG. 2 is a block diagram illustrating a financial institution terminal in a financial institution authentication document forgery verification system based on a block chain of the present invention;
FIG. 3 is a block diagram showing a financial institution certificate authentication management server among the financial institution certificate document forgery verification system based on the block chain of the present invention.
FIG. 4 is a flow chart illustrating a process of verifying whether or not a proof document issued by a financial institution is forged or falsified by using a financial institution proof document forgery verification system based on the block chain of the present invention. FIG.
FIG. 5 is a block diagram illustrating a financial institution terminal, which is a configuration changed according to another embodiment of a financial institution authentication document forgery verification and verification system based on the block chain of the present invention;
FIG. 6 is a flow chart illustrating a process of verifying whether or not a proof document is altered according to another embodiment of a financial institution proof document forgery verification system based on the block chain of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the configuration and operation of each embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a financial institution authentication document forgery verification system based on a block chain of the present invention. FIG. 2 is a block diagram of a financial institution authentication document forgery verification system based on a block chain of the present invention. FIG. 3 is a block diagram illustrating a financial institution certificate management server according to an embodiment of the present invention. FIG. 4 is a block diagram illustrating a block chain of the present invention. A financial institute of a financial institute that uses a forgery-and-corruption verification system to verify whether or not the proof document issued by a financial institution is forgery or falsified.

As shown in the figure, the financial institution authentication document forgery verification system based on the block chain of the present invention includes a financial institution terminal 100, a financial institution certificate authentication management server 200, a block chain holding server 300, And a customer terminal 400.

First, the financial institution terminal 100 is a terminal operated by a bank, a trust company, an insurance company, and a securities company, which is an institution that finances money from a deposit or lends to a company or an individual or performs securities investment, When the user authentication certificate information is generated, the request for record authentication of the generated customer certificate certificate information is stored, the transaction ID information transmitted by the record authentication request is stored, And transmits the requested customer provision certificate information and transaction ID information corresponding to the requested customer provision certificate information.

To this end, the financial institution terminal 100 may include a DB unit 110.

Specifically, the DB unit 110 includes a customer provisioning certificate list information DB 111 for storing customer provisioning certificate information, which is a certificate provided by a financial institution to a customer, and a key value And a transaction identifier list information DB 112 for storing transaction ID information used as the transaction ID information.

The block chain holding servers 300 are devices constituting a bit coin network that performs bit coin settlement through authentication and recording of the bit coin settlement upon bit coin settlement.

Here, the bit coin will be briefly described. Bitcoin is a digital currency that can be settled in 2009 by Satoshi Nakamoto (Satoshi Nakamoto) and has no central device for issuing and managing currency. Instead, the transaction of the bit coin is performed by a distributed database based on peer-to-peer network (P2P), and transactions are performed based on the public key cryptography.

Such a bit coin having a payment method has an advantage in that it can be used without any information such as a card number, an expiration date, and a CCV number necessary for payment of a credit card, as well as a fee for use. In addition, the bit coin is stored in an electronic wallet in the form of a file, and each unique address (public address) is assigned to the electronic wallet, and bit coin transaction is performed based on the address.

In order to use the bit coin having the settlement characteristic, the bit coin user first subscribes to the bit coin exchange (for example, www.coinplug.com) and charges the KRW corresponding to the won coin while opening the electronic wallet.

Then, after confirming the current price of the bit coin being traded at the bit coin exchange and entering the purchase order by inputting the quantity and unit price of the bit coin desired to be purchased, the transaction is established through the sales order matching the transaction condition, The settlement can be performed through the bit-coin.

As described above, the block chain holding servers 300 can work with the server operated by the bit coin exchange side.

For this purpose, an electronic wallet having a block chain may be mounted on the individual block chain holding server 300. When the transaction information for bit coin settlement generated in accordance with a general bit coin settlement is received in the block chain, The transaction information for bit coin settlement is recorded according to the authentication, and the bit-coin settlement transaction information is transmitted to the block-chain holding servers 300, that is, broadcast broadcast.

Here, the propagation of the bit-coin settlement transaction information is promised by a protocol. For example, when the transaction information for bit coin settlement is generated, one node (here referred to as a block chain holding server) All of which are equipped with an electronic wallet having a block chain necessary for performing bit coin settlement through pyramidal propagation which repeatedly propagates to eight nodes designated for each of the eight nodes to which the bit coin settlement transaction information is transmitted Is propagated to the block chain holding server 300, and is completed.

As described above, all the information including the bit-coin settlement transaction information recorded in the block chain can not be forged or modified later.

On the other hand, the block chain holding servers 300 can be interworked with a server (or a terminal) operated by a miner who mines a bit coin or a user terminal (for example, a PC or a smart phone) for bit coin settlement.

In addition, in the case of the bit coin settlement, payment is basically performed based on the electronic wallet equipped with the block chain. As such, payment based on the electronic wallet equipped with the block chain includes light coin, dark coin, name coin, And ripple, and this can also be used as a substitute for performing functions such as bit coin in the forgery verification of a financial institution's certificate document in the present invention.

The block chain of the block chain holding server 300 can record personal information in addition to transaction information for bit coin settlement for general bit coin settlement. That is, it is also possible to record the transaction information for certificate verification, which includes the index hash processed by the hashing algorithm, for the customer-provided certificate information, which is a certificate provided by the financial institution to the customer.

In other words, if an OP return (Operation Code [RETURN]) information is included in the transaction information, which is transaction information generated at the time of bit coin settlement, the electronic wallet of the individual block chain holding server 300 is not a general bit coin settlement, And the OP return information is recorded in the transaction information for verifying the certificate, thereby being used as an important structure for judging prevention of forgery and falsification of the digital contents.

Here, if the message "OP return" is read out on the bit coin settlement transaction information in the electronic coin purse of the block chain holding server 300, the information in which the message "OP return" is recorded is not bit coin transaction information And the data is used as information for informing that it is a data value of 40 bytes.

The financial institution certificate authentication management server 200 processes the customer certificate certificate information through the hashing algorithm in response to the record authentication request of the financial institution terminal 100 to generate the index hash for verification of the certificate, And generates and stores transaction information for verification of the certificate including the index hash for verification of the certificate, generates transaction ID information used as a key value in retrieving the transaction information for verification of the certificate, To the terminal (100).

In order to perform these functions, the financial institution certificate management server 200 may include a hash processing engine 210 and a transaction propagation guidance engine 220.

First, the hash processing engine 210 performs a function of processing the customer-provided certificate information into an index hash for verification of the certificate using a hashing algorithm. The processed index hash for verification of the certificate is Will be used in the same procedure. In other words, when customer-provided certificate information and transaction ID information are transmitted from a customer terminal 400 (to be described later), the customer-provided certificate information of the transmitted information is processed into a certificate-based index hash using the hashing algorithm Transmits the transaction ID information among the transmitted information to the block chain holding servers 300 to request transmission of the transaction information for verification of the certificate, and transmits the transaction ID information transmitted from the block chain holding server 300 Request index verification hash value of the transaction information for certificate verification is compared with the processed index value hash value of the processed certificate to generate the customer request certificate verification information that guides the identity of both hash values, To be transmitted to the customer terminal 400 described later.

Next, the transaction propagation guide engine 220 is provided with an OP returning guidance to be handled as private information other than transaction settlement of index hash and bit coin for certificate verification stored in the index hash list information DB 211 for certificate verification (Operation Code [RETURN]), and stores the generated transaction information in the transaction list information DB 212 for verification. Also, the generated transaction information for transaction verification is stored in the block list To be transmitted to the holding servers (300).

At this time, the electronic certificate purse authentication management server 200 may also be equipped with an electronic purse when performing a function of trading bit coins.

At this time, if the financial institution certificate authentication management server 200 inputs transaction information for authentication verification to the electronic wallet that it holds without transferring it to the block chain holding servers 300 for record authentication first, The electronic purse of the financial institution certificate management server 200 reads the transaction information for verification of the certificate and if it recognizes that the OP return information is collected, the process of authenticating the bit coin payment is omitted, Certificate authentication verification information including the index hash for verification is recorded and transmitted to the next block chain holding servers 300 specified in advance to be propagated to all the block chain holding servers 300 in the state of performing record authentication .

The hash processing engine 210 transmits the transaction ID information of the transmitted information to the block chain holding servers 300 when the customer certificate ID and transaction ID information are transmitted from the customer terminal 400 to be described later It is not necessary to directly match the transaction ID information to the block chain of the electronic wallet mounted on the financial institution certificate management server 200 and to provide the certificate of the transaction information for certificate verification that is recorded in the other block chain holding servers 300 The same value as the index hash value for verification can be obtained.

Thereafter, the customer terminal 400 requests the financial institution terminal 100 to download the customer-provisionable certificate information, and transmits the customer-provided certificate information and the transaction information, which are transmitted from the financial institution terminal 100 in response to the download request, ID information to the financial institution certificate authentication management server 200 to request verification of whether forgery or falsification of the customer providing use certificate information is made, and by requesting verification of whether forgery or falsification of the customer providing use certificate information, Request authentication certificate verification information transmitted from the authentication management server 200 to allow the customer to view it.

Hereinafter, a process of verifying whether or not a proof document issued by a financial institution is forged or falsified will be described using a financial institution proof document forgery verification system based on the block chain of the present invention.

First, when a financial institution official operating the financial institution terminal 100 generates customer certificate information, which is a certificate provided to the customer through the financial institution terminal 100, And transmits the generated customer certificate information to the financial institution certificate authentication management server 200 to request recording authentication of the customer certificate certificate information (S110).

Thereafter, the financial institution certificate authentication management server 200 operates the hash processing engine 210 to transmit the customer-provided certificate information to the financial institution terminal 100 through the hashing algorithm The transaction propagation guidance engine 220 is operated in the state of processing the index hash for verification of the certificate (S120) and guided to be handled as private information rather than transaction settlement of index hash and bit coin for processing the processed certificate (RETURN) information, and transmits the generated transaction information to the block chain holding servers 300 (S130).

The electronic wallet mounted on the block chain holding servers 300 reads the transaction information for verification of the transferred certificate when the transaction information for verification of the certificate is transmitted from the financial institution certificate management server 200, The process of authenticating the bit coin is omitted and the record authentication transaction for verification of the certificate including the index hash for verifying the certificate is recorded in the block chain to perform record authentication (S140).

Then, the financial institution certificate authentication management server 200 generates the transaction ID information used as a key value for operating the transaction propagation guide engine 220 to retrieve the transaction information for certificate verification, and transmits the transaction ID information to the financial institution terminal 100 (S150).

The financial institution terminal 100 stores and manages the transaction ID information transmitted from the financial institution certificate authentication management server 200 in the transaction certificate identification list DB 112 for authentication verification (S160).

In step S170, the customer of the financial institution requests downloading of the customer-provided certificate information to the financial institution terminal 100 through the customer terminal 400 in order to check whether the customer of the financial institution has falsified the customer- do.

Then, when the financial institution terminal 100 transmits the customer provision certificate information and transaction ID information requested to be downloaded to the customer terminal 400 (S180), the customer terminal 400 transmits the customer provision certificate Information and transaction ID information to the financial institution certificate management server 200 to request verification of the forgery or falsification of the customer provision certificate information (S190).

When the customer certificate certificate information and the transaction ID information are transmitted, the financial institution certificate authentication management server 200 transmits the transaction ID information among the transmitted information to the block chain holding servers 300, (Step S200).

Then, the electronic wallet of the block chain holding servers 300 matches the transaction ID information transmitted from the financial institution certificate management server 200 to the block chain, and matches the transaction information for matching the certificate, To the server 200 (S210).

Here, since the transaction information for verifying the certificate transmitted from the block chain holding servers 300 is the same value, only one block chain holding server 300 specified among the block chain holding servers 300 Information may be programmed to be transmitted.

Then, the financial institution certificate authentication management server 200 operates the hash processing engine 210 so as to hash certificate index information hash is generated using the hashing algorithm among the information transmitted from the customer terminal 400, , And compares the index hash value for verification of the certificate of the certificate information for certificate verification transmitted from the block chain holding server 300 with the hash value of the processed certificate to compare the hash value of both hashes And generates the certificate request verification information for requesting the same.

That is, if the hash values of both sides are the same, the customer request certificate verification information is generated to guide that the customer provision certificate information issued by the financial institution is not forged, and if the hash values of both sides are not the same, And generates a customer request certificate verification information that indicates that the customer provision certificate information is forged or falsified.

Thereafter, the financial institution certificate management server 200 transmits the generated customer certificate certificate verification information to the customer terminal 400 (S220).

Thereafter, the customer terminal 400 outputs the customer request certificate verification information transmitted from the financial institution certificate management server 200 through the display unit so that the customer can browse (S230).

Through this, the customer can check whether the various certificate information provided by the financial institution is falsified or not, so that the financial documents can be provided and used correctly.

The financial institution authentication document forgery verification system based on the block chain of the present invention transmits a variety of customer provision certificate information issued by the financial institution to the financial institution certificate authentication management server 200 for confirmation of falsification The risk of leakage of confidential documents is exposed.

In order to prevent this, the financial institution authentication document forgery verification system based on the block chain of the present invention may provide another embodiment.

FIG. 5 is a block diagram illustrating a financial institution terminal according to another embodiment of a financial institution certificate forgery verification and forgery verification system based on the block chain of the present invention. FIG. A verification step of verifying whether or not the proof document is changed according to another embodiment of the proof-of-association forgery verification system.

Accordingly, the financial institution terminal 100, the financial institution certificate authentication management server 200, the block chain holding server 300, and the customer terminal 400, which are the technical structures according to the above-described basic embodiment, are the same, There is a difference in the configuration and the operation relationship between the first embodiment and the second embodiment, and there is no difference from the technical structure according to the above-mentioned basic embodiment, and the same reference numerals are used for the technical structures for performing the same operational relationship, The description of the present invention will be referred to clearly.

In other words, in the financial institution authentication document forgery verification system based on the block chain of the present invention according to another embodiment, the internal structure and operation relationship of the financial institution terminal 100 and the customer terminal 400 are different, In the case of the financial institution certificate management server 200, the internal configuration is the same, but there are some differences only in the operation relationship.

First, the hash processing engine 120 is installed in the financial institution terminal 100 so that the forgery proof process can be performed without transmitting the customer certificate certificate information to the financial institution certificate authentication management server 200.

Accordingly, the financial institution terminal 100 operates the hash processing engine 120 to generate the generated customer-provided credential information, which is a certificate provided to the customer in the financial institution, And generates an index hash for validation of the certificate, and requests the financial institution certificate authentication management server 200 for record authentication of the generated index hash for validation. Stores the transaction ID information transmitted from the financial institution certificate management server 200 according to the record authentication request, and, when the download of the customer provision certificate information is requested from the customer terminal 400, Information and the transaction ID information to the customer terminal 400.

The hash processing engine is also installed in the customer terminal 400. The request for downloading the customer provision use certificate information is transmitted to the financial institution terminal 100 from the financial institution terminal 100, The hash processing engine is operated to process the customer provision use certificate information among the transmitted information into the certificate versus cost index hash using the hashing algorithm, And transmits the transaction ID information to the financial institution certificate authentication management server 200.

Accordingly, the financial institution certificate authentication management server 200 generates the certificate verification transaction information including the index hash for verification of the certificate transmitted by the record authentication request of the financial institution terminal 100, And generates transaction ID information used as a key value in retrieving the transaction information for verification of the certificate, and transmits the generated transaction ID information to the financial institution terminal 100.

Hereinafter, a process of verifying the forgery and falsification of a financial institution certificate based on the block chain according to another embodiment of the present invention will be described.

When the financial institution terminal 100 of the financial institution institution side generates the customer certificate certificate information, which is the certificate provided to the customer, the financial institution terminal 100 stores and manages the customer certificate certificate list information DB 111 and the hash processing engine 120, and processes the generated customer-provided certificate information into an index hash for verification of the certificate through a hashing algorithm, and transmits the index hash for verification of the certificate to the financial institution certificate authentication management server 200 To request recording authentication of customer-provided certificate information (S310).

Thereafter, the financial institution certificate authentication management server 200 operates the transaction propagation guide engine 220 to perform an OP return operation (Operation) to guide the transaction to be handled as private information, not transaction settlement of the index hash and bit coin for verification of the certificate, Code [RETURN]), and transmits the generated transaction information to the block chain holding servers 300 (S320).

The electronic wallet mounted on the block chain holding servers 300 reads the transaction information for verification of the transferred certificate when the transaction information for verification of the certificate is transmitted from the financial institution certificate management server 200, The process of authenticating the bit coin is skipped and the record authentication transaction for verification of the certificate including the index hash for verifying the certificate is recorded in the block chain to perform record authentication (S330).

Thereafter, the financial institution certificate authentication management server 200 generates the transaction ID information used as the key value in the transaction propagation guide engine 220 to retrieve transaction information for authentication verification, and transmits the transaction ID information to the financial institution terminal 100 (S340).

The financial institution terminal 100 stores and manages the transaction ID information transmitted from the financial institution certificate authentication management server 200 in the transaction certificate identification list DB 112 for certificate verification.

In step S360, the customer of the financial institution requests downloading of the customer-provided certificate information to the financial institution terminal 100 through the customer terminal 400 in order to check whether the customer of the financial institution issues a forgery or falsification when issuing the customer- do.

Then, the financial institution terminal 100 transmits the customer-provided certificate information and the transaction ID information requested to be downloaded to the customer terminal 400 (S370), the customer terminal 400 operates the hash processing engine, Processing the processed certificate-to-cost index hash and the transaction ID information to the financial institution certificate authentication management server 200 (200) To request verification of whether forgery or falsification of the customer-provided certificate information (S380).

Then, the financial institution certificate authentication management server 200 transmits the transaction ID information among the transmitted information to the block chain holding servers 300 when the index hash of the certificate and the transaction ID information are transmitted, (Step S390).

Then, the electronic wallet of the block chain holding servers 300 matches the transaction ID information transmitted from the financial institution certificate management server 200 to the block chain, and matches the transaction information for matching the certificate, To the server 200 (S400).

Thereafter, the financial institution certificate authentication management server 200 operates the hash processing engine 210 to compare the index hash value for certificate verification of the certificate information for certificate verification transmitted from the block chain holding server 300 with the certificate hash value And the cost index hash value, respectively, and generates the customer request authentication certificate information that guides the same hash values of both sides.

That is, if the hash values of both sides are the same, the customer request certificate verification information is generated to guide that the customer provision certificate information issued by the financial institution is not forged, and if the hash values of both sides are not the same, And generates a customer request certificate verification information that indicates that the customer provision certificate information is forged or falsified.

Then, the financial institution certificate management server 200 transmits the generated customer certificate verification information to the customer terminal 400 (S410).

After that, the customer terminal 400 outputs the customer certificate verification information transmitted from the financial institution certificate management server 200 through the display unit so that the customer can browse the information (S420).

100: financial institution terminal 110, 210: hash processing engine
110: DB section
111: index hash list information DB for verification of certificate
112: Transaction list information DB for verification of certificate
200: financial institution certificate authentication management server
220: Transaction Propagation Information Engine 300: Block Chain Retention Server
400: Customer terminal

Claims (16)

A method for forgery verification of a financial institution certificate document based on a block chain,
(a) in a state in which transaction information for verifying the certificate generated using the customer-provided certificate information is recorded in the block-chain holding server and transaction ID information corresponding to the transaction information for verifying the certificate is managed, When the request for the use certificate information is detected, the financial institution certificate authentication management server transmits the transaction ID information corresponding to the transaction information for verification to the block chain holding server;
(b) the financial institution certificate authentication management server includes: obtaining transaction certificate transaction information corresponding to the transaction ID information from the block chain holding server;
(c) The financial institution certificate authentication management server includes: (i) a certificate-to-cost index hash value obtained from the customer-provided certificate information corresponding to the request; and (ii) Comparing the index hash value for verification of the acquired certificate; And
(d) The financial institution certificate authentication management server provides the generated verification information with reference to the comparison result of the index versus hash value of the certificate versus the index hash value for verification of the certificate
≪ / RTI > The method according to claim 1,
In the step (a)
(a1) making the request from the customer terminal to the financial institution terminal, (a2) the financial institution terminal transmitting the customer provisioning certificate information and the transaction ID information corresponding to the request to the customer terminal, (a3) When the customer terminal transmits the customer provision use certificate information and the transaction ID information to the financial institution certificate authentication management server, the financial institution certificate authentication management server detects the request for the customer provision use certificate information . ≪ / RTI > The method according to claim 1,
In the step (b)
When the electronic wallet of the block chain holding server matches the transaction ID information with the block chain and transmits matching transaction verification information to the financial institution certificate authentication management server, And acquiring the transaction information for verification of the certificate. The method according to claim 1,
In the step (c)
Wherein the financial institution certificate authentication management server operates the hash processing engine to process the customer provision certificate information using the hashing algorithm to process the certificate to fee index hash. The method according to claim 1,
In the step (d)
If the certificate hash index hash value and the index hash value for verification are the same, the financial institution certificate authentication management server notifies that the customer provision use certificate information issued by the financial institution has not been forged And if the index hash value of the first certificate and the index hash value of the second certificate are not equal to each other, then the financial institution certificate authentication management server transmits the customer request certificate verification information to the customer Request certificate authentication information for guiding that the providing-use certificate information is forged or falsified. The method according to claim 1,
In the step (a)
When the customer provision use certificate information is generated at the financial institution terminal, the financial institution certificate authentication management server obtains the generated customer provision use certificate information, operates the hash processing engine, Processing the information into an index hash for verifying the certificate, generating transaction information for verifying the certificate including the information, and recording the transaction information in the block chain holding server, and managing or managing the transaction ID information corresponding to the transaction information for verifying the certificate , The financial institution certificate authentication management server transmits the transaction ID information corresponding to the certificate verification transaction information to the block chain holding server Lt; / RTI > The method according to claim 1,
In the step (a)
When a hash processing engine is operated at a financial institution terminal to generate an index hash for verification of the certificate for the customer provision certificate information, the financial institution certificate authentication management server acquires the index hash for the generated certificate verification In a state in which transaction information for verification of a certificate including the transaction information is generated and recorded in the block chain holding server and the transaction ID information corresponding to the transaction information for verification is managed or managed, Wherein when the request for the certificate information is detected, the financial institution certificate authentication management server transmits the transaction ID information corresponding to the certificate verification transaction information to the block chain holding server. The method according to claim 1,
Wherein the transaction information for verifying the certificate is managed by including the index hash for verifying the certificate and the OP return information for guiding to be treated as private information. A financial institution certificate authentication management server for performing forgery verification of a financial institution certificate document based on a block chain,
In a state in which transaction information for verifying the certificate generated using the customer provision certificate information is recorded in the block chain holding server and transaction ID information corresponding to the transaction information for verifying the certificate is managed, And transmits the transaction ID information corresponding to the transaction information for verification to the block chain holding server when the request for information is detected, A communication unit for acquiring information;
(i) comparing the index-hash value of the certificate obtained from the customer-supplied certificate information corresponding to the request with the index-hash value for certificate verification obtained from the transaction-information for transaction verification, A processor for generating verification information with reference to a comparison result between the certificate versus cost index hash value and the index certification hash value for verification,
/ RTI > 10. The method of claim 9,
(a1) making the request from the customer terminal to the financial institution terminal, (a2) the financial institution terminal transmitting the customer provisioning certificate information and the transaction ID information corresponding to the request to the customer terminal, (a3) Wherein the communication unit detects the request for the customer provisioning certificate information when the customer terminal transmits the customer provisioning certificate information and the transaction ID information. 10. The method of claim 9,
Characterized in that when the electronic wallet of the block chain holding server matches the transaction ID information to the block chain and transmits the matching transaction verification transaction information, the communication unit acquires the transaction information for verification of the certificate . 10. The method of claim 9,
The processor comprising:
And processing the customer provision use certificate information into the certificate versus cost index hash using a hashing algorithm. 10. The method of claim 9,
The processor comprising:
Generating certificate verification information for a customer request to guide that the customer provision use certificate information issued by the financial institution is not forged if the hash value of the certificate versus the index is the same as the index hash value for verification of the certificate, And if the index hash value of the first certificate and the index hash value of the second certificate are not the same, generates the customer certificate authentication information that informs that the customer provision use certificate information issued by the financial institution is forged Lt; / RTI > 10. The method of claim 9,
When the customer provision use certificate information is generated at the financial institution terminal, the financial institution certificate authentication management server obtains the generated customer provision use certificate information, operates the hash processing engine, Processing the information into an index hash for verifying the certificate, generating transaction information for verifying the certificate including the information, and recording the transaction information in the block chain holding server, and managing or managing the transaction ID information corresponding to the transaction information for verifying the certificate , The communication unit transmits the transaction ID information corresponding to the transaction information for verifying the certificate to the block chain holding server when the request for the customer provision certificate information is detected The server. 10. The method of claim 9,
When a hash processing engine is operated at a financial institution terminal to generate an index hash for verification of the certificate for the customer provision certificate information, the financial institution certificate authentication management server acquires the index hash for the generated certificate verification In a state in which transaction information for verification of a certificate including the transaction information is generated and recorded in the block chain holding server and the transaction ID information corresponding to the transaction information for verification is managed or managed, Wherein the communication unit transmits the transaction ID information corresponding to the transaction information for verifying the certificate to the block chain holding server when a request for the certificate information is detected. 10. The method of claim 9,
Wherein the transaction information for verifying the certificate is managed by including the index hash for verifying the certificate and OP return information for guiding to be treated as private information.

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