KR20200029660A - Funding System for Separate Storage of Computing Ledger Based on Big Data, and Method thereof - Google Patents

Abstract

The present invention relates to a funding providing system and a method of providing funding for big data-based computational ledger separate storage. In the present invention, each of the plurality of funding recruitment terminals 100 constituting the funding recruitment terminal set 100g accesses the funding mediation-based computer ledger management server 300 through the network 200 to perform integrated membership registration. Stage 1; Funding by each investor terminal 400 constituting the investor terminal set 400g according to a request for recruitment of a P2P funding project by the funding recruitment terminal 100 where the funding mediation-based computer ledger management server 300 has performed an integrated membership subscription. A second step of performing the subscription application in an intermediary manner; In order to manage information about the funding operator who operates the funding intermediary-based computer ledger management server 300 and the funding operator who operates the funding recruitment terminal 100 and the investor who operates the investor terminal 400 as a computerized ledger, the computerized ledger information is a blockchain method A third step of separating into and storing them on the blockchain-based computer ledger DB server 700; And a fourth step in which the funding brokerage-based computer ledger management server 300 brokers investment according to the funding investment execution of the funding recruitment terminal 100 using the investment fund for the P2P funding project in which the funding application has been completed. It characterized in that it comprises a.
In this way, by storing the ledger separately containing the information of the investor and the fund project provider through the big data server and blockchain-based encryption function, investors request confirmation of the principle of the principal and interest on the investment, or when issuance is required In other words, it provides the effect of allowing the fund project provider to directly access to the borrowers when repayment is needed without going through the P2P platform for repayment.

Description

Funding System for Separate Storage of Computing Ledger Based on Big Data, and Method thereof

The present invention relates to a funding system and a method of providing funding for the separate storage of a big data-based computer ledger, and more specifically, a computer that contains information of investors and fund project providers through a big data server and blockchain-based encryption function. By separating the ledger, investors can check the details of the principal and interest on the investment funds, or, if issuance is necessary, when the fund project provider does not go through the peer-to-peer platform for repayment, it can be viewed directly by the lender. It relates to a funding system and a method of providing funding for the big data-based computational ledger separate storage to be possible.

An integrated platform has been proposed that connects the platforms of P2P funding companies for funding investment. However, in the case of a conventional P2P funding company, it is difficult to obtain information about the transaction history, that is, the borrower and the investor, that occurred in the existing platform in the event of the insolvency of the P2P funding company and the unpaid profit.

Accordingly, in the related technical field, in order to solve this problem, the computerized ledgers of funding recruiters are kept separately, and the development of a technology to separately store and store some items among the separated computerized ledgers is required.

Republic of Korea Patent Application No. 10-2017-0153953 "Distributed Ledger Device and Distributed Ledger Method for User Identification Management Based on Block Chain"

The present invention is to solve the above problems, and by storing the ledger separately containing the information of the investor and the fund project provider through the big data server and the blockchain-based encryption function, investors can obtain the details of the principal and interest on the investment. When requesting confirmation or issuance, funding system for big data-based computational ledger segregation storage for fund project providers to be able to view when repayment is needed directly to lenders without going through the P2P platform for repayment And to provide a funding method.

In addition, the present invention provides a funding system for separate storage of a big data-based computer ledger to enable a separate access when requested by an upper organization or a legal institution by limiting the time during which the access is provided. It is intended to provide a method for providing funding.

However, the objects of the present invention are not limited to those mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the method for providing funding for the separate storage of a big data-based computer ledger according to an embodiment of the present invention includes a plurality of funding recruiting terminals 100 constituting the funding recruiting terminal set 100g. A first step of accessing a funding brokerage-based computer ledger management server 300 through 200 and performing an integrated membership subscription; Funding by each investor terminal 400 constituting the investor terminal set 400g according to a request for recruitment of a P2P funding project by the funding recruitment terminal 100 where the funding mediation-based computer ledger management server 300 has performed an integrated membership subscription. A second step of performing the subscription application in an intermediary manner; In order to manage information about the funding operator who operates the funding intermediary-based computer ledger management server 300 and the funding operator who operates the funding recruitment terminal 100 and the investor who operates the investor terminal 400 as a computerized ledger, the computerized ledger information is a blockchain method A third step of separating into and storing them on the blockchain-based computer ledger DB server 700; And a fourth step in which the funding intermediary-based computer ledger management server 300 brokers the investment according to the funding investment execution of the funding recruitment terminal 100 using the investment fund for the P2P funding project in which the funding application has been completed. It characterized in that it comprises a.

In addition, after the fourth step, the funding intermediary-based computer ledger management server 300 provides integrated member DB information for investors operating the funding recruitment terminal 100 and the investor operating the investor terminal 400, If the funding operator operating the funding recruitment terminal 100 continues to operate normally, the access is blocked so that it cannot be viewed, and the funding operator operating the funding recruitment terminal 100 continues to operate normally when the access is possible. A fifth step of restricting access to only those who do not; Characterized in that it further comprises.

In addition, after the fifth step, a sixth step in which the funding brokerage-based computer ledger management server 300 proceeds to repay the investment profit for the P2P funding project; Characterized in that it further comprises.

In accordance with an embodiment of the present invention, the funding providing system and the funding providing method for the separate storage of the big data-based computer ledger separate the computerized ledger containing information of investors and fund project providers through a big data server and a blockchain-based encryption function. By storing, so that investors can check the details of the principal and interest on the investment funds, or if it is necessary, the fund project provider can directly access the loans without relying on the P2P platform for repayment. It provides an effect.

In addition, according to another embodiment of the present invention, the funding providing system and the funding providing method for the big data-based computer ledger segregation storage can limit the time when access is provided, and can access the computer ledger. It provides the effect of allowing separate reading upon request of the institution.

1 is a flow chart showing a method for providing funding for the separate storage of a computer-based ledger according to an embodiment of the present invention.
2 is a view showing a funding providing system 1 for separate storage of a big data-based computer ledger according to an embodiment of the present invention.
3 is a block diagram showing the components of the funding mediation-based computer ledger management server 300 among the funding provision system 1 for big data-based computer ledger separate storage according to an embodiment of the present invention.
FIG. 4 is a flow chart showing the process of releasing a computer ledger by the computer ledger disclosure module 324 among the funding brokerage-based computer ledger management server 300 of FIG. 3.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

1 is a flow chart showing a method for providing funding for the separate storage of a big data based computer ledger according to an embodiment of the present invention. And Figure 2 is a view showing a funding providing system (1) for separate storage of a big data-based computational ledger according to an embodiment of the present invention. First, referring to FIG. 2, the funding providing system 1 for big data-based computational ledger segregation storage includes a set of funding recruitment terminals 100g, a network 200, and funding intermediary composed of a plurality of funding recruitment terminals 100 Based computer ledger management server 300, investor terminal set consisting of a plurality of investor terminals 400 (400g), financial company server 500, big data-based DB server 600, blockchain-based computer ledger DB server 700 It may include.

Looking at the method of providing funding for the separate storage of the ledger based on big data of FIG. 1 through such a configuration, each of the plurality of funding recruitment terminals 100 constituting the funding recruitment terminal set 100g is through the network 200. Access to the funding brokerage-based computer ledger management server 300 to perform integrated membership registration (S110).

After the step S110, the funding mediation-based computer ledger management server 300 sets the investor terminal set 400g according to the request for recruitment of the P2P funding project by the funding recruitment terminal 100 that performed the integrated membership subscription in the step S110. It is carried out in a manner of brokering a subscription request for funding by each investor terminal 400 constituting (S120).

After step S120, the funding brokerage-based computer ledger management server 300 computes information about the funding operator who operates the funding recruitment terminal 100 and the investors who operate the investor terminal 400 as a computerized ledger. The ledger information is separated in a blockchain manner and stored on the blockchain-based computer ledger DB server 700 (S130).

After the step S130, the funding brokerage-based computer ledger management server 300 brokers the investment according to the funding investment execution of the funding recruitment terminal 100 utilizing the investment funds for the P2P funding project in which the funding application is completed. (S140).

After step S140, the funding intermediary-based computer ledger management server 300 provides integrated member DB information for the funding operator operating the funding recruitment terminal 100 and the investor operating the investor terminal 400, but funding recruitment If the funding operator operating the terminal 100 continues to operate normally, the access is blocked so that it cannot be viewed, and the funding operator operating the funding recruitment terminal 100 does not normally operate when the access is possible. It is limited to read only (S150).

After step S150, the funding brokerage-based computer ledger management server 300 proceeds to repay the investment profit for the P2P funding project (S160).

3 is a block diagram showing the components of the funding mediation-based computer ledger management server 300 among the funding provision system 1 for big data-based computer ledger separate storage according to an embodiment of the present invention. FIG. 4 is a flow chart showing the process of publishing a computer ledger by the computer ledger disclosure module 324 among the funding brokerage-based computer ledger management server 300 of FIG. 3. First, referring to FIG. 3, the funding mediation-based computer ledger management server 300 may include a transceiver 310 and a control unit 320, and the control unit 320 stores a funding mediation module 321 and a computerized ledger. It may include a module 322, a digital ledger blockchain-based encryption module 323, and a computer ledger public module 324.

The funding intermediary module 321 confirms whether to join the integrated member according to the P2P funding platform membership inquiry according to access through the network 200 by the funding recruitment terminal 100, and then integrates if it is not an integrated member When the member registration process is performed or if a member has already been registered as an integrated member, the transmitter / receiver 310 is controlled to transmit the predetermined project recruitment amount limit for each integrated member, that is, the total investment limit information, to the big data-based DB server 600. Can be saved.

In addition, the funding intermediary module 321 accesses to the financial institution server 500 through the network 200 with agreement to the funding recruitment terminal 100 to which the integrated membership is registered, and the current deposit information of the deposit account of the funding recruitment terminal 100 The transceiver 310 may be controlled to receive.

To this end, the funding mediation module 321, in the integrated membership registration process for the funding recruitment terminal 100, the funding recruiter name, funding recruiter's real number, deposit account, funding recruiter personal information [homepage URL information (funding project Receive the homepage, address, funding recruitment terminal identification number, ...] including information and send the integrated member information unit to the big data-based DB server 600 through the network 200 to the big data-based DB server 600. Blockchain-based computational ledger DB server accessing the big data-based DB server 600 for some items of the computer ledger stored in the encrypted state in the big data-based DB server 600 by controlling the transceiver 310 to do so The items set in advance by 700 may be separated and stored in a blockchain manner.

Here, the encryption is performed by a two-stage CTR encryption method, and the funding recruiter name, funding recruiter's real number, deposit account, and funding personal information [homepage URL information and current deposit information are respectively binarized. Next, CRT encryption is performed using the first encryption key (funding recruiter's name) and the second encryption key (funding recruiter's real number), but the first step of generating E-Nonce by applying block encryption by the second encryption key It is desirable to improve encryption performance by performing CTR encryption, blocking all binarized information, sorting them into a plurality of plaintext blocks, and performing an exclusive OR on each of E-Nonce and plaintext blocks. The method can be applied, and in the case of reverse encryption, the current deposit information can be extracted by proceeding in the reverse order of encryption.

The funding mediation module 321 transmits and receives the deposit information of each funding recruitment terminal 100 to which the integrated member is subscribed to be transferred to the deposit account of the funding mediation server 300 through the request for transfer of the deposit to the financial institution server 500 The deposit 310 is controlled and the deposit information transferred to the deposit account of the funding intermediary server 400 is the entire set of deposit information and / or funding recruitment terminal set 100g for each of the encrypted funding recruitment terminals 100 described above. By controlling the transmitting and receiving unit 310 to transmit the deposit information to the big data-based DB server 600 through the network 200, the deposit collection service for storing the encrypted data in the encrypted state in the big data-based DB server 600 is performed. You can. The deposit information stored in the encrypted state is stored separately according to the computer ledger, and a blockchain-based computer ledger that accesses the big data-based DB server 600 by using deposit and withdrawal history for some items of the separated computer ledger. Separation and archiving of items preset by the DB server 700 is performed in a blockchain manner.

Here, the encryption is performed in a two-stage CTR encryption method, and the funding recruiter's name, the funding recruiter's real number, the deposit account, and the funding recruiter's personal information [the homepage URL information are binarized, respectively, after the binary information is created. CRT encryption is performed using the first encryption key (funding company name) and the second encryption key (funding company real name number), but the first-stage CTR encryption that generates E-Nonce by applying block encryption by the second encryption key is performed. It is desirable to improve the encryption performance by performing all the E-Nonce and each of the plaintext blocks exclusively, and performing the above-described encryption method. can do.

In this case, the funding mediation module 321 is a predetermined time unit (for example, 5 minutes to 10 minutes) for each funding recruitment terminal 100 to which an integrated member is subscribed, through a request for a deposit to the financial institution server 500 It is preferable to provide the deposit collection information in the updated and encrypted state in real time to the big data-based DB server 600 by performing a transfer request for the deposit to the deposit account of the funding intermediary server 300.

In addition, the funding mediation module 321 is a funding project information unit for each funding recruitment terminal 100 to which an integrated member is subscribed, investment classification information (real estate, real estate, credit, etc.), project recruitment amount, investment repayment method, by investor After controlling the transmitting and receiving unit 310 to receive the minimum / maximum investment amount, the interest rate, and the expiration date, the returned funding project information unit is the funding recruiting company name of each funding recruiting terminal 100 and / or the real name of the funding recruiting company The number may be used as metadata and stored in the big data-based DB server 600 together with the integrated member information unit.

In another embodiment of the present invention, the funding mediation module 321 is a funding produced by each funding recruitment terminal 100, not the above-described query form, in which the recruitment method of the funding project information unit for each funding recruitment terminal 100 is not described above. The funding recruitment server (not shown) designated by the funding recruitment terminal 100 by utilizing the personal information of the funding recruiter (homepage URL information) among the member information units integrated into the big data-based DB server 600 for the project draft image. After collecting through the keyword extraction method based on video (text) on the homepage, the collected funding project information unit is integrated into the funding recruiter's name or / and the funding recruiter's real number of each funding recruitment terminal 100 as metadata. It can also be stored in the big data-based DB server 600 together with the member information unit.

In addition, the funding mediation module 321 controls the transmitting and receiving unit 310 to transmit the current funding project status query for the funding project to each funding recruitment terminal 100 to which an integrated member is registered, and then returns the funding project status information Can be stored in the big data-based DB server 600 together with the integrated member information unit by using the funding recruiter's name or / and the funding recruiter's real name number as metadata.

Here, the funding project status information can be divided into funding schedule, funding, repayment after completion of funding, repayment completion, funding and / or repayment suspension, funding and / or failure, funding and / or cancellation, repayment overdue, etc. have.

The funding intermediary module 321 is a funding intermediary server 300 for providing information about the integrated member information unit and the funding project information unit based on the funding recruiter name or / and the funding recruiter's real number of each funding recruiting terminal 100. By posting on a funding intermediary web page or a swap page provided by the company, an application for providing investment funds specifying a funding recruiter's name and / or a funding recruiter's real number from at least one investor terminal 400 to at least one funding recruitment terminal 100 is requested. The transmitting and receiving unit 310 may be controlled to receive.

In this case, the funding intermediary module 321 is planning to fund among the funding project information unit, during funding, and during the funding pause for the funding project corresponding to the application for providing the investment fund designating the funding recruiting terminal 100 from the investor terminal 400. It is preferable to additionally perform a verification process to check whether it corresponds to at least one.

On the other hand, the funding mediation module 321, the investor name, the investor's real number, the investment amount, and the investor personal information of each investor terminal 400 that has transmitted the investment offer application (investor terminal identification number, address, e-mail, ...) Control the transceiver 310 to receive and store the investor member information unit to the big data-based DB server 600 through the network 200 without receiving and storing the investor member information unit in the big data-based DB server 600 By doing so, items set in advance by the blockchain-based computational ledger DB server 700 accessing the big data-based DB server 600 for some items of the computerized ledger stored in the encrypted state in the big data-based DB server 600 It can be made to perform separate storage in a blockchain manner. Here, the funding mediation module 321 may perform the encryption method for the investor member information unit in the same manner as the encryption method for the integrated member information unit.

At this time, the funding intermediary module 321 may designate the integrated member information unit to designate at least one investor member information unit received as an upper category and a lower category to be stored on the big data-based DB server 600. After such storage, the funding intermediary module 321 searches for the investor member information unit centering on the integrated member information unit, and the funding recruiter's name and / or the funding recruiter's real name of the investor terminal 400 who applied for each investment offer It is preferable to separately designate the number as metadata for the investor member information unit and store it together on the big data-based DB server 600.

On the other hand, in another embodiment of the present invention, the funding intermediary module 321, the investor's name, the investor's real number, the investment money, and the investor's personal information (investor's terminal identification number, address, etc.) e-mail, ...) is received and stored in the big data-based DB server 600 as an investor member information unit. ).

The funding intermediary module 321 performs payment of a predetermined investment to a deposit account of the funding recruitment terminal 100 by depositing a bankbook with the name of the investor and / or the real name of each investor operating the investor terminal 400 Whether or not the notification is received from the financial institution server 500 through the network 200, or whether the payment of a predetermined investment from the investment payment account of the investor terminal 400 to the deposit account of the funding recruitment terminal 100 is performed. The transceiver 310 may be controlled to receive a notification notification from the financial institution server 500.

In this case, the funding mediation module 321 checks whether the diversified funding recruitment investment according to each investment is correctly performed when one investor terminal 400 requests to provide investment to two or more funding recruiting terminals 100 In order to do this, after extracting the funding recruiter's name and / or the funding recruiter's real number and the investment capital from the investor member information unit having metadata for each funding recruiter's name and / or the funding recruiter's real name, the primary extraction is performed. The secondary can be extracted from the deposit account of the integrated member information unit, the project recruitment amount, and the minimum / maximum investment amount for each investor matching the funding recruiter name or / and the funding recruiter's real number. Through the primary and secondary extraction process according to the metadata setting for each funding recruiter name or / and the funding recruiter's real number by the funding intermediary module 321, and the information verification process described below, a transparent and secure investment It can provide an effect that can be verified.

The funding mediation module 321 accesses the deposit information of the second extracted deposit account to the big data-based DB server 600 through the network 200, checks the updated information in real time, and firstly checks the deposited information. When the extracted investment is summed up as deposit information, it performs the first verification check whether it is within the project recruitment amount, and when it is within the project recruitment amount, performs the second verification check whether the investment amount meets the minimum / maximum investment amount for each investor. If so, it is preferable to control the transmission / reception unit 310 to transmit the collection notice for summing the investment as deposit information to the financial institution server 500 through the network 200.

In this case, the financial institution server 500 may designate the fund recruitment terminal 100 as the withholding agent for the investment included in the collection notice transmitted by the funding intermediary module 321 and store the withholding history.

On the other hand, in the present invention, the order of the first collation verification operation and the second collation verification operation may be changed, and if it does not match, the investment is automatically adjusted within a matching limit to investor terminal 400 from the funding intermediary module 321. As notifications can be performed.

In addition, in another embodiment of the present invention, the funding mediation module 321 is a funding mediation server 300 that is not the payment of the investment from the above-mentioned investor terminal 400 account to the deposit account of the funding recruitment terminal 100. When an unbanked deposit or account transfer of the entire investment to a virtual account (eg, a deferred payment account) is performed, when one investor terminal 400 requests to provide investment for two or more funding recruiting terminals 100, After extracting the funding recruiter's real name and / or funding recruiter's real number and investment money from the investor member information unit that has metadata for each funding recruiter's name and / or the funding recruiter's real number, the primary extracted funding A secondary account may be extracted from the deposit account of the integrated member information unit, the project recruitment amount, and the minimum / maximum investment amount for each investor matching the company name and / or the funding recruiter's real number.

The funding mediation module 321 accesses the deposit information of the second-deposited deposit account to the big data-based DB server 600 through the network 200 and checks it in real time, and then the investment money extracted primarily to the confirmed deposit information In case of summing up as deposit information, it performs the first verification check whether it is within the project recruitment amount, and if it is within the project recruitment amount, it performs the second verification check to see if the investment amount meets the minimum / maximum investment amount for each investor. In addition to controlling the transmitting and receiving unit 310 to transmit a collection notice for summing the investment as deposit information to the financial institution server 500 through the network 200, the network 200 is encrypted by encrypting the deposit information in which the investment is collected. By transmitting to the big data-based DB server 600 through, the deposit information can be updated.

That is, in this case, since the financial institution server 500 can designate the funding intermediary server 300 operator as the withholding agent for the investment included in the collection notice, the withholding history can be stored, so the funding intermediary server 300 can be used for each investor. Deposit information, which is a collection of investment information, which is a collection of investment funds from the terminal 400 to the funding recruitment terminal 100, is encrypted and transmitted to the big data-based DB server 600 through the network 200 so that the deposit information is updated. By performing the additional process, the deposit information stored in the big data-based DB server 600 can be used as tax data to report the withholding details of the funding recruiters who operate each funding recruitment terminal 100.

Through this process, the funding mediation module 321 allows investment execution to be performed from each investor terminal 400 to at least one funding recruitment terminal 100.

On the other hand, in another embodiment of the present invention, the funding mediation module 321 provides an investment that sets only the investment rather than the application for the investment through the designation and investment designation of the funding recruitment terminal 100 by the investor terminal 400 When an application is received, check the current deposit information of the deposit account of each funding recruitment terminal 100 (access the deposit information of the deposit account to the big data-based DB server 600 through the network 200 and check in real time) After that, if the invested money is added to the confirmed deposit information as deposit information, the first check of whether or not it is within the project recruitment amount is performed, and if it is within the project recruitment amount, whether the investment amount meets the minimum / maximum investment amount by investor 2 At least one of the funding recruiter's name and / or the real name of the funding recruiter of each funding recruitment terminal 100 having a matching deposit account by performing a difference check operation The transmitting and receiving unit 310 may be controlled to be provided by the big data-based DB server 600.

Subsequently, the funding intermediary module 321 is an integrated member that uses the funding recruiter name or / and the funding recruiter real name metadata when there are multiple funding recruiter names or / and funding recruiter real numbers of each provided funding recruitment terminal 100. After extracting the information unit from the big data-based DB server 600 again, it is possible to extract the project recruitment amount, recruitment interest rate, and maturity date from the extracted integrated member information unit.

Subsequently, the funding intermediary module 321 analyzes the extracted project recruitment amount, recruitment interest rate, and maturity date, and mod information for the fund project person based on the stability mode in the first mode or the profitability mode in the second mode, and the project recruitment amount , After notifying the investor terminal 400 through the network 200 using the recruitment interest rate and the maturity date as one project subscription unit information, the transmitter / receiver 310 may be controlled to receive at least one or more selected investment offer applications. .

According to the present invention, it is analyzed that the stability increases as it goes from 1 to n by dividing it into steps of 1 to n stability according to the increase in the quantitative value of the project recruitment amount, and among the 1 to n stability of the total 100 parts of stability Multiply the forward stability weight corresponding to one and divide it into steps of 1st to mth profitability according to the increase in the quantitative value of the recruitment interest rate, and analyze that the profitability increases as it goes from 1 to m. Multiply the forward profit weights corresponding to one of the first to m profit levels for the total 100 gross units, and divide them from 1 to L by dividing them into steps of first to L instability according to the increase in the quantitative value of the expiration date. It is analyzed that the stability decreases gradually and corresponds to one of the 1st to Lth stability for the total 100 parts of stability. Multiply the backward stability weights, and divide them into steps of 1st to Kth non-profitability according to the increase in the quantitative value of the expiration date, and analyze that the profitability decreases from 1 to K. Also, the backward profit corresponding to one of the K-th profit degrees may be multiplyed.

According to the weighting calculations for the stability, profitability, non-stability, and non-profitability, the first result is derived from the first result value derived from the total 100 parts of total stability and the second result value derived from the total 100 parts of total stability. If the result is larger than the second result, it is analyzed as a fund project based on the stability mode, which is the first mode. Conversely, if the second result is larger than the first result, the fund project is based on the profitability mode, which is the second mode. Raw funding mediation module 321 may be analyzed.

That is, the funding intermediary module 321 provides automatic priority investment and distributed investment for the investor terminal 400, and for this purpose, the interest rate and maturity for the fund project previously set by the funding recruitment terminal 100 described above. In addition, by performing the setting for the recruitment amount, etc., as well as investing and diversifying investment according to the investment scheme of the funding recruitment terminal 100 corresponding to the preset method, the method set by the integrated member is additionally based on stable seats or profitability It can be arbitrarily set.

In addition, the funding mediation module 321 performs transfer and transfer of investment funds, and investment details when executing investment corresponding to investment classification information (real estate, real estate, credit, etc.) of the funding project information unit using the collected investment amount By posting the funding project information unit on the funding intermediary web page or the swap page provided by the funding intermediary server 300, it can be provided to each investor terminal 400 for viewing.

The funding intermediary module 321 checks whether there is any current funding project status information for the funding project stored on the big data-based DB server 600 and is being repaid after the funding ends, and then provides a funding recruitment terminal that provides the confirmed funding project The project information unit that uses the funding recruiter's name in (100) and / or the funding recruiter's real name as metadata may be extracted from the big data-based DB server 600.

Subsequently, the funding intermediary module 321 extracts the investment repayment method, the interest rate, and the maturity date from the extracted project information unit corresponding to the application for providing the investment by each investor terminal 400, and then checks whether the expiration date has passed. When the elapsed, the transmitting and receiving unit 310 transmits a repayment distribution request to complete the repayment distribution for the investor terminal 300 through the network 200 according to the extracted investment repayment method and recruitment interest rate. Can be controlled. Here, the method of repaying the investment may be provided in the form of providing the investment amount and interest rate according to the maturity rate at a time, or the method of providing equal division, or providing one of the investment amount and interest amount temporarily, and providing the method of providing equal division to the other. However, it is not limited thereto.

Upon repayment processing, the financial institution server 500 performs repayment processing for the investment amount and interest amount from the deposit account of the funding recruitment terminal 100 to the investor terminal 400, encrypts the result of the repayment processing, and then performs network 200 ) By controlling the transmitting and receiving unit 310 to transmit to the big data-based DB server 600, the history of the encrypted reimbursement processing stored on the big data-based DB server 600 is stored by the funding intermediary server 300 It is desirable to ensure that access is provided only by request and reverse encryption.

In addition, when repayment processing, the financial institution server 500 may encrypt and store the reimbursement processing result of the tax history settlement on the big data-based DB server 600 when the settlement of the tax history according to the withholding details described above is completed. .

In addition, in another embodiment of the present invention, the funding mediation module 321 posts on the web page provided to the funding recruitment terminal 100 or the integrated member my page on the swap page for the distribution and reimbursement of the investor terminal 400 Therefore, in the case of authentication through an integrated member ID and password, it is preferable to provide it for viewing, and the investment history and funding project invested according to the mediation of the funding mediation server 300 through the same authentication procedure for the investor terminal 400 as well. It is preferable to provide the status, repayment history, and distribution history for viewing.

The computer ledger storage module 322 accesses the big data-based DB server 600 to separate transaction history generated after the P2P funding project of the funding recruitment terminal 100 among the data stored in the big data-based DB server 600 By requesting the big data-based DB server 600 to be stored separately in the blockchain-based computational ledger DB server 700 corresponding to the server, and then deleting the storage on the big data-based DB server 600 for the requested data , On the big data-based DB server 600, it can be encrypted and stored again by de-encryption, item deletion, and deleted items.

Here, the previous and deleted items include the funding recruiter's name, funding recruiter's real number, deposit account, and funding recruiter's personal information [homepage URL information (homepage including address of funding project information, address, funding recruitment terminal identification number, ...) , Investor name, investor real name number, investment amount, and investor personal information (investor terminal identification number, address, e-mail, ...).

The computational ledger blockchain-based encryption module 323 provides a blockchain-based encryption algorithm for the blockchain-based computational ledger DB server 700, thereby common to the encrypted item information on the blockchain-based computational ledger DB server 700. You have control. Here, the blockchain-based encryption algorithm is performed in a two-stage CTR encryption method, and the funding recruiter's name, funding recruiter's real number, deposit account, and funding recruiter's personal information [homepage URL information (homepage including address of funding project information, address, funding recruitment) After the terminal identification number, ...], investor name, investor real name number, investment money, and investor personal information (investor terminal identification number, address, e-mail, ...) are all binarized, the first encryption key (fund recruitment) Mission) and CRT encryption using the second encryption key (investor name), but block encryption is applied by the second encryption key to perform one-stage CTR encryption to generate E-Nonce and block all binary information. It is desirable to improve the encryption performance by sorting into a plurality of plaintext blocks and performing an exclusive OR on each of the E-Nonce and plaintext blocks, and in the case of reverse encryption, proceed in the reverse order of encryption. The current deposit information can be extracted by sharing the first cryptographic key (funding company name) and the second cryptographic key (investor name) through this encryption, as well as utilizing it as blockchain-based cryptographic information. It is possible to provide security that does not leak the encryption key (name of fund recruiting company) and the second encryption key (investor name).

On the other hand, the computer ledger disclosure module 324 provides integrated member DB information for the investor operating the funding recruitment terminal 100 and the investor operating the investor terminal 400, as shown in FIG. 4, but the funding recruitment terminal 100 ) If the funding operator who operates) continues to operate normally, the access is blocked so that it is not possible to view it, and the time when it is possible to view it is available only when the funding operator operating the funding recruitment terminal 100 does not operate normally. It can be limited so that it can (S210).

Subsequently, the computer ledger disclosure module 324 executes the investment by the funding recruitment terminal 100, the “integrated member information unit” of the funding recruitment terminal 100 in the big data-based DB server 600, the big data-based DB server Among the funding project information units stored in (600), "Investor Information Unit (Investor's Integrated Member ID, Investor's Name, Investor's Address, Investor's Terminal Identification Number, etc.)" that matches the investment classification information (real estate, property, credit, etc.) is extracted. Subsequently, by sending a request message to be provided as a separate computer ledger information corresponding to the "investment history for investors", a response through the network 200 to the investor terminal 100 on the blockchain-based computer ledger DB server 700 The type push message is allowed to be transmitted (S220).

In addition, when the computer ledger disclosure module 324 receives the echo signal according to the confirmation of the responsive push message by the investor terminal 400, after confirming the investor terminal identification number from the received echo signal, the investor The investment funds are extracted from the investor member information unit matching the terminal identification number, and the investment interest rate and maturity date of the investor terminal 400 that applied for the investment fund are extracted from the funding project information units stored for the funding recruitment terminal 100 that has been executed. Afterwards, a request message is sent to the blockchain-based computer ledger DB server 700 to provide the extracted investment funds, recruitment interest rate, and maturity date along with the investor terminal identification number as separate computer ledger information corresponding to the "funding history of funding used for funding". By sending, to the funding recruitment terminal 100 on the blockchain-based computer ledger DB server 700 in the form of a push message through the network 200 So that it can be carried out cluster (S230).

In addition, the computer ledger disclosure module 324 requests and receives the withholding details of the funding recruiters according to the investment information provided to the funding recruitment terminal 100 to the financial institution server 500, or withholds the withholding for the brokerage server operator After receiving the request to the DB server 600 based on the big data, the network with a tax expert terminal (not shown) or a tax related institution server (not shown) within the time limit set in advance with the information of the withheld computer ledger. 200) can be controlled to transmit and receive unit 310 (S240).

In this case, the funding mediation module 321 may provide the transmitted withholding history to the browsing according to an application by the terminal (not shown) of the funding recruitment terminal 100 or the funding mediation server manager.

As described above, in the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms are used, they are merely used in a general sense to easily describe the technical contents of the present invention and to help understand the invention. , It is not intended to limit the scope of the present invention. It is apparent to those skilled in the art to which the present invention pertains that other modified examples based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

1: Big data-based funding system for separate storage of computer ledgers
100: funding recruitment terminal
100g: Funding recruitment terminal set
200: network
300: Funding brokerage-based computer ledger management server
310: transceiver
320: control unit
321: Funding mediation module
322: Computer ledger storage module
323: Computing ledger blockchain based encryption module
324: Computer ledger disclosure module
400: investor terminal
400g: Investor terminal set
500: financial company server
600: Big data-based DB server
700: Blockchain-based computer ledger DB server

Claims (3)

A first step in which each of the plurality of funding recruitment terminals 100 constituting the funding recruitment terminal set 100g accesses the funding mediation-based computer ledger management server 300 through the network 200 to perform integrated membership registration;
Funding by each investor terminal 400 constituting the investor terminal set 400g according to a request for recruitment of a P2P funding project by the funding recruitment terminal 100 where the funding mediation-based computer ledger management server 300 has performed an integrated membership subscription. A second step of performing the subscription application in an intermediary manner;
In order to manage information about the funding operator who operates the funding intermediary-based computer ledger management server 300 and the funding operator who operates the funding recruitment terminal 100 and the investor who operates the investor terminal 400 as a computerized ledger, the computerized ledger information is a blockchain method A third step of separating into and storing them on the blockchain-based computer ledger DB server 700; And
A fourth step in which the mediation ledger management server 300 based on the funding brokerage brokers the investment according to the funding investment execution of the funding recruitment terminal 100 utilizing the investment funds for the P2P funding project in which the funding application is completed; Funding providing method for separate storage of a big data-based computer ledger, characterized in that it comprises a.
The method according to claim 1, After the fourth step,
The funding brokerage-based computer ledger management server 300 provides integrated member DB information for investors who operate the funding recruitment terminal 100 and the funding operator and the investor terminal 400, but operates the funding recruitment terminal 100 If the funding operator is operating normally, the access is blocked so that it is not possible to view it, and the funding operator operating the funding recruitment terminal 100 can view the viewable point only when it is not operating normally. A fifth step of limiting; Funding providing method for the separate storage of a big data-based computer ledger, characterized in that it further comprises.
The method according to claim 2, After the fifth step,
A sixth step in which the funding brokerage-based computer ledger management server 300 proceeds to repay the investment profit for the P2P funding project; Funding providing method for the separate storage of a big data-based computer ledger, characterized in that it further comprises.

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