WO2019156488A1 - Blockchain participant compensation method and system - Google Patents

Abstract

The present invention relates to a blockchain network participant compensation method and system, and the blockchain network participant compensation method comprises the steps of: allowing a blockchain service server to generate a digital object (seed); allowing the blockchain service server to provide the generated digital object to the blockchain network participant (blockchain participant) through a blockchain network; and, when the digital object is transferred to another blockchain participant by the blockchain participant to which the digital object has been provided, allowing the transferred digital object to be converted to a value object (token or coin) commonly used in a blockchain system, or converted to a valid object (fruit) and then converted to the value object (token or coin) commonly used in the blockchain system, wherein information on the transfer and conversion of the digital object is recorded in a ledger of the blockchain system, and the digital object becomes extinct after the elapsing of a predetermined time without having been transferred to another participant.

Description

Blockchain Participant Compensation Method and System

The present invention relates to blockchain, and more particularly, to a method and system for rewarding blockchain participants.

The meaning of credit or trust is the basis of the relationship between people as a degree of trust between people. Community society conducts barter and foreign trade on the basis of trust, and credit and trust are interpreted in the same sense.

Economic activities increased from the 1st Industrial Revolution, credit was required, and credit ratings were quantified based on somewhat subjective judgment. Using the numerical credibility, credit is used for all economic activities and data and systematization of credit rating is implemented. As a result, rating agencies remain monopolistic.

The underprivileged population of financially underprivileged people who do not have credit data around the world is larger. In addition, the damage caused by the leakage of personal information due to the monopoly of the centralization and management of credit information continues to pass, which is passed on to social costs. Credit rating agencies are generating a lot of revenue from the use of credit information, and indirect costs are incurred by establishing and improving information management policies. Due to the financial transaction disadvantage caused by the lack of credit rating information management, the individual will increase interest expenses and fall into a bad credit.

Qualifications, education, time, and purchase are under the control of the individual and can be said to be owned by the individual, but the ownership of credit information is not. In addition, current credit information is limited. In other words, the present and future values are assessed on a historical basis.

Therefore, there is a need for a system that can assign ownership of credit information to individuals, increase personal income by capitalizing credit information, and manage credit information accurately and securely through blockchain technology. Blockchain has a structure in which a block containing transaction information cross-references the previous block and the next block with unique values, and is connected like a chain, and creates peers or transactions participating in the P2P network. Participants store all the blocks created in the P2P network so that anyone can view the transaction details and compensate the self-issued goods to the person who proved the work using the unique proof-of-work method and balance deduction process It is a technology that uses a professional form of character.

Currently known blockchain uses crypto currency, and in the conventional cryptocurrency, a method called mining is used to generate inflation. The technical method of mining is a process of checking the integrity of remittances when transferring virtual currency between participants, and finding a hash value of the newly created blockchain. This approach uses hardware equipment called miners. Mining provides incentives for compensation, which implies inequality inequalities between individuals and companies in mining.

The problem to be solved by the present invention is to apply the P2P AirDrop method to solve the inequality and imbalance of the coin distribution and to compensate the blockchain participants to expand the blockchain network participants and can be used to calculate the individual confidence index To provide a blockchain network participant compensation method and system.

Blockchain network participant compensation method according to the present invention for achieving the technical problem, the blockchain service server generating a digital object (seed); Providing, by the blockchain service server, the generated digital object to the blockchain network participant (blockchain participant) via a blockchain network; And when the digital object is transferred to another blockchain participant by the blockchain participant provided with the digital object, the transferred digital object is converted into a value object (token, coin) commonly used in the blockchain system, or an effective object ( Fruit), and converting it to a value object (token, coin) commonly used in the blockchain system, and information on the transfer and conversion of the digital object is recorded in the ledger of the blockchain system. The digital object is destroyed after a certain time without being transferred to another participant.

In the blockchain network participant compensation method according to the present invention, when the assignor and the assignee of the digital objects are the same within a predetermined period, the shorter the time interval in which the digital objects are transferred or the more frequently the transfers are made, the value of the digital object is increased. This includes reducing the conversion rate to an object or valid object. The digital objects created by the blockchain service server may be provided to the blockchain participants a certain number free of charge every day. The digital object is generated a predetermined number (N) per day, the value object is allocated by a number (M) less than the number of the digital object, the total number (N) of the digital object and the total number (M) of the value object The effective object number converted into the value object is determined by the ratio of), and the effective object and the value object are converted one to one.

The blockchain network participant compensation method according to the present invention may further include calculating a confidence index of the blockchain participant by using at least one of a frequency at which the blockchain participant pumps the digital object and a cumulative number of digital objects. have. When the blockchain participant pumps the digital object, the frequency of pumping the digital object or the accumulated number of digital objects may be calculated quantitatively differently according to the confidence index of the blockchain participant transferring the digital object.

In the blockchain network participant compensation method according to the present invention, a blockchain activity history of a blockchain participant including a history of transferring digital objects received from a blockchain service server for a predetermined period of time or a login record of accessing the blockchain network is checked. Doing; And recovering an effective object or a value object held by the blockchain participant who does not have the blockchain activity history.

Blockchain network participant compensation system according to the present invention for achieving the technical problem, blockchain for generating a digital object, and providing the generated digital object to the blockchain network participants (blockchain participants) through a blockchain network Service server; A first blockchain participant receiving the digital object created by the blockchain service server and transferring the provided digital object to another blockchain participant through the blockchain network; A second blockchain participant that pumps the digital object from the first blockchain participant through the blockchain network; A smart contract module for converting a digital object acquired by the second blockchain participant into a value object (token, coin) commonly used in a blockchain system; And a blockchain ledger for storing information about the transfer and conversion of the digital object, wherein the digital object includes a blockchain participant provided directly from a blockchain service server in advance without being transferred to another blockchain participant. It is characterized by disappearing after a predetermined time.

In the blockchain network participant compensation system according to the present invention, when the assignor and the assignee of the digital objects are the same within a predetermined period, the shorter the intervals for transferring the digital objects or the more frequently the transfers of the digital objects are performed, the higher the number of the digital objects. The ratio of conversion to value objects (tokens and coins) can be reduced.

The digital object may be provided to a blockchain participant a certain number every day by the blockchain service server. The smart contract module converts the transferred digital object into an effective object (fruit) when the digital object is transferred to another blockchain participant within a predetermined time by a blockchain participant provided with the digital object. Fruit) is earnable, and converts the accumulated effective objects into value objects (tokens and coins) commonly used in the blockchain system.

The digital object is generated a certain number (N) per day, the value object is assigned a predetermined number (M), by the ratio of the total number (N) of the digital object and the total number (M) of the value object The number of effective objects for converting the digital object into a value object is determined, and the effective object and the value object can be converted one to one.

The blockchain participant compensation system according to the present invention may further include a reliability calculation module configured to calculate a confidence index of the blockchain participant using at least one of a frequency of the blockchain participant pumping the digital object and a cumulative number of digital objects. Can be.

When the blockchain participant pumps the digital object, the reliability calculation module quantitatively varies at least one of a frequency of pumping the digital object and a cumulative number of digital objects according to the trust index of the blockchain participant who transfers the digital object. Can be calculated. The blockchain network may include at least one of a public blockchain network and a private blockchain network.

The blockchain service server checks the blockchain activity history of the blockchain participant, including a history of transferring digital objects received from the blockchain service server for a predetermined period or a login record of accessing the blockchain network, and the blockchain activity The blockchain participant management module may further include a blockchain participant management module for recovering a valid object or a value object held by a blockchain participant having no history.

The present invention provides a recording medium readable by a processor that records a program executed by the processor.

According to the blockchain participant compensation method and system according to the present invention, it is possible to expand the blockchain system participant by compensating the blockchain participant, thereby activating the blockchain system.

According to the present invention, it is possible to measure the value of credit by quantifying an individual's trust index (credit), to make the ownership of the credit information of the individual belong to the individual, and to create, manage and strengthen the credit by the individual.

In addition, according to the present invention, it is possible to provide a life-based blockchain based on credit, and improve the trust index by allowing the level of trust to be changed according to the result of the activity of the individual in the network to which the individual is applied, such as SNS. It is possible to manage the trust index actively.

In addition, according to the present invention, personal income may be increased by capitalizing and trading credit information, and free P2P credit transactions may be performed through tokens (coins) provided through a credit chain (MCC) according to the present invention. Can be.

In addition, the present invention can provide an Open API structure that can accurately and securely manage credit information in a blockchain, and utilize credit information in other blockchains. Credit chain tokens according to the present invention enable smart contracts (Smart Contract) and credit information transactions.

Through the present invention, it is possible to facilitate the communication of money in cryptocurrency or points, local currency, etc., and to continuously inflation of money to implement a smooth currency system.

1 is a block diagram showing an embodiment of the configuration of a blockchain network participant compensation system according to the present invention.

2 is a flowchart illustrating an embodiment of a blockchain network participant compensation method according to the present invention.

3 shows an example of an ecosystem to which a blockchain participant compensation method and system according to the present invention can be applied.

4 is a conceptual diagram illustrating an example of a P2P network that creates new credit through a blockchain system according to the present invention.

5 illustrates an example of flexible linkage and scalability of the blockchain network according to the present invention.

6 shows an example of the architecture of a blockchain system (MCC) to which a blockchain network participant compensation system according to the present invention is applied.

6 shows an example of the architecture of the credit chain (MCC) according to the present invention.

7 shows an example of a data providing process in a blockchain system (MCC) to which the present invention can be applied.

8 illustrates an example of a life cycle of a token according to an embodiment of the present invention.

9 is a conceptual diagram illustrating a concept of P2P airdrop according to an embodiment of the present invention.

10 shows the size of the volume over time.

11 shows that the evaluation score can be calculated through big data credit evaluation and reflected in the financial institution strategy.

12 shows an example of credit rating using non-financial data.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Configurations shown in the embodiments and drawings described herein are only one preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be variations and variations.

1 is a block diagram showing an embodiment of the configuration of a blockchain network participant compensation system according to the present invention. Referring to Figure 1, an embodiment of the configuration of the blockchain network participant compensation system according to the present invention will be described. One embodiment of the configuration of the blockchain network participant compensation system according to the present invention is a blockchain service server 110, a first blockchain participant 120, a second blockchain participant 130, a smart contract (smart contract) The module 140 may include a block chain ledger 150, and may further include a reliability calculation module 160 and a blockchain participant management module 170. In the present invention, the blockchain participant including the first blockchain participant 120 and the second blockchain participant 130 is connected to a blockchain network such as a terminal, a mobile communication device, a computer, and the like that are connected to the blockchain network. Possible electronics.

The blockchain service server 110 generates a digital object (seed) and provides the generated digital object to the blockchain network participant (hereinafter referred to as blockchain participant) through the blockchain network 105.

The first blockchain participant 120 receives a digital object generated by the blockchain service server 110 and transfers the provided digital object to another blockchain participant through the blockchain network 105. The second blockchain participant 130 pumps the digital object from the first blockchain participant 120 through the blockchain network 105. In the present invention, the assignment and the amniotic fluid include both free and paid phases.

The smart contract module 140 converts a digital object acquired by the second blockchain participant 130 into a value object (token or coin) commonly used in the blockchain system. The smart contract module 140 converts the transferred digital object into an effective object (fruit) when the digital object is transferred to another blockchain participant within a predetermined time by the blockchain participant provided with the digital object. An object (fruit) can be accumulated, and the accumulated effective object can be converted into a value object (token, coin) commonly used in the blockchain system.

The block chain ledger 150 stores information about the transfer, transfer and conversion of the digital object. The digital object is destroyed after a predetermined time passes without the blockchain participant directly provided from the blockchain service server being transferred to another blockchain participant.

The reliability calculation module 160 calculates a confidence index of the blockchain participant by using at least one of the digital object pumping frequency and the cumulative number of digital objects of the blockchain participant. For example, the greater the number of digital objects that the blockchain participant frequently pumps or pumps digital objects from other blockchain participants, the higher the confidence index.

In addition, when the blockchain participant pumps the digital object, the reliability calculation module 160 may determine at least one of a frequency of pumping the digital object and a cumulative number of digital objects according to the trust index of the blockchain participant who transfers the digital object. It can be calculated differently quantitatively. The concept is that digital objects acquired from blockchain participants with high confidence indices will evaluate the number of blockchains acquired from blockchain participants with low trust. That is, if there are 10 digital objects pumped from a blockchain participant with a high confidence index, the reliability calculation module 160 recognizes the number of digital objects as 15 and 10 digital objects pumped from a blockchain participant with a low confidence index. In this case, the reliability calculation module 160 recognizes the number of digital objects as ten or eight.

The blockchain participant management module 170 checks the blockchain activity history of the blockchain participant, including a history of transferring digital objects received from the blockchain service server 110 for a predetermined period or a login record of accessing the blockchain network. Then, the effective object (fruit) or value object (token) possessed by the blockchain participant without the blockchain activity history is recovered.

In the blockchain network participant compensation system according to the present invention, when the assignor and the assignee of the digital objects are the same within a predetermined period, the shorter the intervals between which the digital objects are transferred or the number of times of the transfers are more frequent, the value of the digital objects. The ratio of conversion to objects (tokens and coins) can be reduced. This prevents intentional and frequent transfer of digital objects between specific individuals.

The digital object may be provided to a blockchain participant a certain number every day by the blockchain service server. In addition, the digital object is generated a certain number (N) per day, the value object is assigned a predetermined number (M), the ratio of the total number (N) of the digital object and the total number (M) of the value object By this, the number of effective objects for converting the digital object into a value object is determined, and the effective object and the value object can be converted one to one.

The blockchain network may include at least one of a public blockchain network and a private blockchain network.

2 is a flowchart illustrating an embodiment of a blockchain network participant compensation method according to the present invention. An embodiment of a blockchain network participant compensation method according to the present invention will be described with reference to FIGS. 1 and 2. First, the blockchain service server 110 generates a digital object (seed) (step S210). The blockchain service server 110 transmits the generated digital object through the blockchain network 105 to the blockchain network participant. (Step S220) The digital objects generated by the blockchain service server 110 may be provided to the blockchain participants a certain number of times every day at no cost.

When the digital object is transferred to another blockchain participant by the blockchain participant provided with the digital object, the transferred digital object is directly converted into a value object (token, coin) commonly used in the blockchain system, or an effective object ( Fruit) and then converted to a value object (token, coin) commonly used in the blockchain system. (S230) According to an embodiment of the present invention, the conversion rate of the digital object into the value object or the effective object is If the assignor and the assignee of the digital objects are the same within a certain period of time, the shorter the time interval in which the digital objects are transferred or the number of times they are transferred may become smaller. The digital object is generated in a predetermined number N per day, and the value object is allocated by the number M, M <N less than the number of the digital object, and the total number N of the digital object and the value object. The number of effective objects converted into value objects is determined by a ratio of the total number M of the effective objects, and the effective objects and the value objects may be converted one to one.

Information about the transfer and conversion of the digital object is recorded in the ledger of the blockchain system (step S240). The digital object is destroyed after a certain time without being transferred to another participant.

In the blockchain network participant compensation method according to the present invention, the blockchain participant may calculate a confidence index of the blockchain participant by using at least one of a frequency of acquiring the digital object and a cumulative number of digital objects. S250 step) may be further included. In addition, when the blockchain participant pumps the digital object, the frequency of acquiring the digital object or the cumulative number of the digital objects may be calculated quantitatively differently according to the confidence index of the blockchain participant transferring the digital object. .

The blockchain network participant compensation method according to the present invention may further include recovering an effective object or a value object of the blockchain participant without activity history (step S260). The blockchain participant management module 170 may include a block including a history of transferring digital objects received from the blockchain service server for a predetermined period of time, for example, for one month, or a login record of accessing the blockchain network. The blockchain activity history of the chain participant may be checked, and an effective object or a value object held by the blockchain participant without the blockchain activity history may be recovered.

3 shows an example of an ecosystem to which a blockchain network participant compensation system according to the present invention can be applied. Credit information of an individual can be quantified through the blockchain network participant compensation system according to the present invention. The present invention allows ownership of personal credit information to belong to an individual. To this end, it provides a storage space for an individual, and the individual can directly generate credit information and store it securely in a distributed ledger.

In addition, the present invention allows the distributed ledger and information to be accessed only by the PKI based to provide a structure that can create, manage, and strengthen the credit for each individual, so that the information is provided after the individual's approval. However, only authorized user organizations have access to information and cannot use it when the term expires.

In addition, the present invention enables to improve the confidence of the individual by the activity of the individual in order to change the level of trust in accordance with the results of the activity in the network, and enables the user to actively manage the trust index.

Considering the history of humanity as the history of assetization, food, weapons, land, stocks, intellectual property, derivatives, and cryptocurrencies have become assets. The present invention allows personal credit information to become an object of assetization, thereby enabling the sale of personal credit information and thereby increasing personal income.

The present invention provides a P2P network that enables the creation of new credit. In other words, P2P airdrop relationship analysis, offline-based big data analysis (address book, IoT, location information, etc.), trust couple, trust union network structure, P2P network that creates new credit through collateral use of assets (credit chain token) can do.

4 is a conceptual diagram illustrating an example of a P2P network generating new credit by applying the present invention. Referring to FIG. 4, the size of a circle representing each individual corresponding to the node constituting the network represents the size of the individual's credit.

The present invention provides a blockchain that self-evolving and self-expanding. In other words, it provides a private network expansion, 3 ^rd party involvement structure, node production and consumption and operating information. Specifically, the P2P Airdrop function can be used to expand a personal address book or an SNS friend to the blockchain network according to the present invention. And 3 ^rd party participation structure can have a credit assessment modelers, big data analysts, marketing specialists, such as value-added potential 3 ^rd party involvement. In addition, for node operation, anyone participates in slPFS-node to contribute to the improvement of transaction safety and performance and to be rewarded accordingly. In addition, for the production and consumption of information, a range of information to be provided is provided at the request of the information consumer, and a network for additional production of necessary information is established.

In the present invention, a variety of credit rating information can be collected and utilized. In addition to traditional credit rating information including income information, asset information, CB information, etc., the present invention can be applied to external big data information including public information, financial transactions, consumption expenditures, insurance payments, social data, and carrier details. It can be used as the credit information of the blockchain network according to the present invention in real time by including the trust support chain generation information (reference group, partnership, trust index, etc.) generated by the.

In addition, the blockchain network according to the present invention has flexible linkage and scalability. 5 illustrates an example of flexible linkage and scalability of the blockchain network according to the present invention.

6 shows an example of the architecture of a blockchain system (MCC) to which a blockchain network participant compensation system according to the present invention is applied. Referring to FIG. 6, the blockchain system (MCC) may include a core layer 610, a service layer 620, an API layer 630, and an application layer 640. The core layer 610 may include an Ethereum platform and an Inter-Planetary File System (IPFS) that securely stores and stores credit information of customers. The service layer 620 may include an MCC Smart Contract, an IPFS address and an access control, and scoring system having core logic of the platform. API Layer (630) is an API Layer API for 3 ^rd party Interface and Application for the association. Application Layer (640) may include a Mobile App and WEB Application that provides authentication and service for the subscriber and 3 ^rd parties, participants node.

The present invention enables to manage a unique account for each individual, it is possible to issue and manage a unique account for each individual through the exact KYC (know your customer) of the participants. Data collected to provide secure data storage can be encrypted and stored in a secure area of the device or securely stored in a distributed database (IPFS). Also, by setting the data timeout, when providing the collected information, an algorithm for verifying the information providing period by setting the information providing period can be applied.

7 shows an example of a data providing process in a blockchain system (MCC) to which the present invention can be applied. Referring to FIG. 7, when the service requester 710 requests information through the service interface 720 of the MCC, the service interface 720 of the MCC transmits an information request to the service provider 730. The service provider 730 not only collects information through various agencies but also provides information collected through the service interface 720 of the MCC by referring to the information through the IPFS 740. In this case, the collected information may be stored in the IPFS 740. The service requester 710 pays the token through MCC's Token Contract 750 in exchange for receiving the service, and the Token Contract 750 of the MCC pays the token in exchange for providing the service to the service provider 730.

By doing so, MCC participants can benefit from a variety of benefits. For example, one of the participants can gain ownership of credit information, increase assets from P2P airdrop and credit sales, make free P2P financial transactions, and create new credit in the network. ) Can be created. In addition, among the participants, information users can collect accurate and diverse data that meets their needs, can be reflected in product development, self-evaluation models, and marketing strategies, and can reduce risks and maintenance costs for collecting personal information. In addition to a wide range of analysis and processing of credit information provider of 3 ^rd Parties can provide personal, big data analysts, easily participation of credit institutions, and provided the participants and can increase revenue by reselling the analysis information.

The present invention can be extended to a P2P financial platform. Individuals who need a Loan can request a Loan by checking their credit score and providing credit information to the appropriate agency. In addition, a variety of participating agencies can request loans (banks, lenders, combinations in the network) to conduct loans after internal review. In this way, it can be extended to P2P financial platform in MCC.

The blockchain network participant compensation according to the present invention is an embodiment, which generates a free gift every day and provides it to the nodes (participants) belonging to the blockchain network, and provides a digital object (seed) and a reward concept that provide incentives at the time of the gift. P2P AirDrop method can be used. Participants (nodes) who participate in the service through the blockchain network are given a certain number of seeds every day, and if the seeds are presented to others within 24 hours, the seeds are converted into effective objects (fruits). When presenting a seed to the same person, the shorter the present period, the smaller the rate can be converted into an effective object (fruit) and become a value object (token). The fruit is converted into a value object (token) in a one-to-one (1: 1) ratio and each fruit is distributed by the seed ratio received by a certain number of tokens each day. The seeds have no value if they have no value, but when they are presented to others, they are converted into virtual currency or points, and are expired after the expiration date, and the seeds are paid daily and can be given daily and earned every day.

8 illustrates an example of a life cycle of a token according to an embodiment of the present invention. Referring to FIG. 8, when a seed (digital object) is provided through P2P AirDrop 810 and a seed is presented to another person in the network (820), the seed bears a fruit (effective object) and becomes a token (value object). (830) Remittance of tokens (840), use of tokens in exchange for information requests (850) and payment of CSS report provision costs (860). In addition, the token may be exchanged 870 through the exchange, and a user who is not active may recover the token 880.

The P2P airdrop shown in FIG. 9 will be described. In the Gift Economy proposed by Charles Eisenstein, it is a structure that distributes seeds evenly among people. Airdrop also has a virtuous cycle of incentive marketing. Induces natural inflation Three seeds are automatically generated per person each day. Seeds are automatically extinguished if they are not present on the day. When a seed is presented to others, it becomes a fruit and converted into a token.

9 is a conceptual diagram illustrating a concept of P2P airdrop according to an embodiment of the present invention. P2P AirDrop according to the present invention generates a free gift every day to provide to the nodes (blockchain participants) belonging to the blockchain network. P2P AirDrop that can be applied to the present invention uses the concept of seed and reward. Individuals who participate in the service receive a certain number of seeds each day. The seeds have no value if they have them, but when they are presented to others, they become virtual currency or points. The seeds have an expiration date, for example, seeds made on the same day are extinguished if they are not presented on the day.

In an embodiment of the present invention, a P2P airdrop policy may be set as follows. Seeds can be paid daily, gifted daily, and earned daily. Every day, three seeds are paid to everyone participating in the network at GMT (00:00). If you give a seed to someone within 24 hours, the seed will be converted to a token and will be destroyed if you don't give it the same day you receive it. However, when presenting a seed within 10 days to the same person, only 1 / (10-d) ratio is converted into fruit and becomes a token. Where d is the number of days. The converted fruit can be converted into tokens in a one-to-one (1: 1) ratio and token conversions when the user needs it. Each day, 10,000 tokens are distributed to each person by the percentage of seeds they receive. An example of a P2P airdrop policy that can be applied to an embodiment of the present invention will be described. When the seed sender is S, the seed recipient is R, and Ri is the distance from the day immediately before Sj is d (RiSj) , the total number of seeds presented is seed (T) as shown in Equation 1. Can be represented.

And the total number of fruits received fruit (T) can be represented as shown in Equation 2.

The number of fruits received by Ri fruit (Ri) can be expressed as shown in Equation 3.

When the total number of tokens a day Airdrop considered token (T), the number of token (Ri) of the token to obtain the Ri may be defined as shown in Equation (4).

The token in the credit chain (MCC) according to the present invention is a self-stabilization token, and the Token Volume Structure is a daily P2P airdrop and a long-term non-user token recovery and destruction policy simultaneously. Regardless of whether you airdrop 10,000 things every day. And Self Stabilization System is a structure that converges to a certain volume according to the participant size and the ratio of non-users. The volume N value is automatically adjusted over time, ensuring a stable operating mechanism even after decentralization. This can overcome the high fluctuations of existing cryptocurrencies and flexibly cope with the expansion of the service area and the increase of the participating population. 9 shows the size of the volume over time.

Referring to FIG. 10, it can be seen that over time, inflation and deflation converge. As a result of applying the P2P airdrop to the present invention, the Boltzmann distribution phenomenon appeared, forming clustering around the physical space, belonging and mutual recognition by clustering, and maintaining deep trust between nodes in the cluster. We could also find a network hub. There is a core node that leads trust in a cluster, a bridge node that connects between clusters, and a real big mouse and a network hub of trust. It can also be seen that there is an isolated node that exists alone. Isolated Nodes have a so-called 'lone wolf' that is alienated in the cluster, and the isolated node has more than three times the organizational leaving rate, and needs to improve the relationship to improve overall reliability. Through this, it is possible to model and quantify future reliability by analyzing centrality, density, degree, and isolation in human network relationships.

11 shows that the evaluation score can be calculated through big data credit evaluation and reflected in the financial institution strategy. 12 shows an example of credit rating using non-financial data.

The present invention can be embodied as code that can be read by a computer (including all devices having an information processing function) on a computer-readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording devices include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like. Further, in this specification, “unit” may be a hardware component such as a processor or a circuit, and / or a software component executed by a hardware component such as a processor.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

The present invention is applicable to a life-based blockchain system based on credit. In addition, the present invention can be used for personal income increase and P2P credit transactions by allowing each individual to own and trade his or her credit information. In addition, the present invention facilitates the communication of money in cryptocurrency or points, local currency, etc., can be used to implement a smooth currency system by continuously causing inflation of money.

Claims (15)

1. Generating, by the blockchain service server, a digital object (seed);

   Providing, by the blockchain service server, the generated digital object to the blockchain network participant (blockchain participant) via a blockchain network; And

   When the digital object is transferred to another blockchain participant by the blockchain participant provided with the digital object, the transferred digital object is directly converted into a value object (token, coin) commonly used in the blockchain system, or an effective object ( Fruit) is converted into a value object (token, coin) commonly used in the blockchain system,

   Information about the transfer and conversion of the digital object is recorded in the ledger of the blockchain system,

   And the digital object is destroyed after a certain time without being transferred to another participant.
2. The method of claim 1,

   If the assignor and the assignee of the digital objects are the same within a certain period of time, the shorter the time interval for the digital objects to be transferred or the more frequently the transfer is made, the smaller the conversion rate of the digital object to the value object or the effective object becomes. Blockchain network participant compensation method, characterized in that.
3. The digital object of claim 1, wherein the digital object generated by the blockchain service server is

   A method for rewarding blockchain network participant, characterized in that a certain number is provided to the blockchain participants every day at no cost.
4. The method of claim 1,

   The digital object is generated a predetermined number (N) per day, the value object is allocated by a number (M) less than the number of the digital object, the total number (N) of the digital object and the total number (M) of the value object The number of effective objects to be converted to the value object is determined by the ratio of), and the effective object and the value object is converted to one-to-one, blockchain network participant compensation method.
5. The method of claim 1,

   And calculating a confidence index of the blockchain participant by using at least one of a frequency of the blockchain participant pumping the digital object and a cumulative number of digital objects. .
6. The method of claim 5,

   When the blockchain participant pumps the digital object, the frequency of acquiring the digital object or the cumulative number of the digital objects acquired are quantitatively calculated differently according to the confidence index of the blockchain participant transferring the digital object. Blockchain network participant compensation method.
7. The method of claim 1,

   Confirming blockchain activity details of the blockchain participant, including a history of transferring digital objects received from the blockchain service server for a predetermined period or a login record of accessing the blockchain network; And

   And recovering an effective object or a value object held by the blockchain participant who has no blockchain activity history.
8. A blockchain service server for generating a digital object and providing the generated digital object to the blockchain network participant (blockchain participant) via a blockchain network;

   A first blockchain participant receiving the digital object created by the blockchain service server and transferring the provided digital object to another blockchain participant through the blockchain network;

   A second blockchain participant that pumps the digital object from the first blockchain participant through the blockchain network;

   A smart contract module for converting a digital object acquired by the second blockchain participant into a value object (token, coin) commonly used in a blockchain system; And

   A blockchain ledger for storing information about the transfer and conversion of the digital object,

   The blockchain network participant compensation system, characterized in that the digital object is destroyed after a predetermined time without the blockchain participant directly provided from the blockchain service server is not transferred to another blockchain participant.
9. The method of claim 8,

   If the assignor and the assignee of the digital objects are the same within a predetermined period, the shorter the intervals between which the digital objects are transferred or the more frequently they are transferred, the higher the conversion rate of the digital object to the value object (token, coin) is. Blockchain network participant compensation system, characterized in that small.
10. The method of claim 8, wherein the smart contract module

    If the digital object is transferred to another blockchain participant within a certain time by the blockchain participant who has received the digital object, the transferred digital object is converted into an effective object (fruit), and the effective object (fruit) can be accumulated. And converting the accumulated effective object into a value object (token, coin) commonly used in the blockchain system.
11. The method of claim 10,

    The digital object is generated a certain number (N) per day, the value object is assigned a predetermined number (M), by the ratio of the total number (N) of the digital object and the total number (M) of the value object And determining the number of effective objects for converting the digital object into a value object, and converting the effective object and the value object one-to-one.
12. The method of claim 8,

    The blockchain network participant compensation system further comprises a reliability calculation module for calculating a confidence index of the blockchain participant by using at least one of the frequency of the blockchain participant and the cumulative number of digital objects. .
13. The method of claim 12, wherein the reliability calculation module

    When the blockchain participant pumps the digital object, the blockchain participant calculates at least one of a frequency of pumping the digital object and a cumulative number of digital objects according to the confidence index of the blockchain participant transferring the digital object. Blockchain network participant compensation system.
14. The method of claim 8, wherein the blockchain network is

    A blockchain network participant compensation system comprising at least one of a public blockchain network and a private blockchain network.
15. The method of claim 8,

    Check the blockchain activity history of the blockchain participant, including the history of transferring the digital objects received from the blockchain service server for a predetermined period or the login history of accessing the blockchain network, and the blockchain participant without the blockchain activity history. The blockchain network participant compensation system, characterized in that it further comprises a blockchain participant management module for recovering a valid object or a value object.

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