CN114202325A - NFR issuing intelligent contract and operation method thereof - Google Patents

Abstract

The invention provides an NFR issuing intelligent contract, which is completed by a group of intelligent contracts cooperating with each other, and comprises the following steps: the deposit center traces back contracts, the authentication center confirms the right contracts, the issuing center issues the contracts, the gifting contracts and the judicial unit supervision contracts; the running method of the NFR issuing intelligent contract comprises the following steps: step 1, tracing contracts based on a certificate storing center to implement user registration and digital space establishment processes; step 2, implementing the process of digital work right determination and binding based on the right determination contract of the authentication center; step 3, implementing NFR network issuing process based on authentication center authority-confirming contract; step 4, implementing a digital space gift transferring process based on the gift transferring contract; and 5, implementing the NFR issuing and settlement process based on the judicial unit supervision contract and the manual and automatic settlement intelligent contract or the full-automatic settlement intelligent contract.

Description

NFR issuing intelligent contract and operation method thereof

Technical Field

The invention belongs to the technical field of block chain technology, intelligent contract technology, Non-homogeneous Tokens (NFR) and supervision, and particularly relates to an NFR issuing intelligent contract and an operation method thereof.

Background

Since Non-homogeneous Tokens (NFT) belong to digital Tokens, they cannot be used within the scope of chinese law. The prior art therefore proposes NFR technology, which is different from NFT, and although all use blockchain technology, the NFR technology does not involve digital tokens and has no payment system, but still uses intelligent contracts and related blockchain technology, so that the characteristics of uniqueness, indivisible property and the like of transactions can be guaranteed, and a real name system is adopted, thereby ensuring that NFR technology is implemented in china without legal risks similar to NFT in china.

However, the existing NFT technology and NFR technology have the following technical drawbacks:

(1) NFT has no legal basis, and thus many legal disputes are easily impossible to resolve, for example, many painters find some people to sell on the network without permission to form their paintings into NFT at the later stage of creation, and the occurrence frequency of such legal events is very high;

(2) each NFR issuance requires separate processing, and there is currently no well-established intelligent contract-based NFR issuance contract agreement. The NFR protocol is a complex protocol since it has no digital tokens, no payment system, but a real name system; the applicant has filed a patent application for NFR internal agreements prior to the filing date of the present application, but does not deal with user registration and the full distribution contract agreement for submitting digital works.

Disclosure of Invention

The invention provides an NFR issuing intelligent contract and an operation method thereof, aiming at solving one or more technical problems in the prior art, and the NFR issuing intelligent contract and the operation method thereof are used for completing the process of NFR commodity issuing corresponding to a group of intelligent contracts.

The invention aims to provide an NFR issuing intelligent contract, which is completed by a group of intelligent contracts cooperating with each other, and comprises the following steps:

the method comprises the following steps of a certificate storage center tracing contract, a certification center authority confirmation contract, a distribution center issuing contract, a transfer contract and a judicial unit supervision contract, wherein the certificate storage center tracing contract is used for user registration and digital space establishment processes, the certification center authority confirmation contract is used for the authority confirmation and binding processes of the digital works, the distribution center issuing contract is used for NFR initial network issuing processes, the transfer contract is used for digital space transfer, and the judicial unit supervision contract is used for partial NFR issuing settlement processes.

The invention also aims to provide an operation method of the NFR issuing intelligent contract, which comprises the following steps:

step 1, based on the contract tracing of the evidence storing center, implementing user registration and digital space establishing processes;

step 2, implementing the flow of digital work right confirmation and binding based on the authentication center right confirmation contract;

step 3, implementing NFR network issuing process based on the authentication center authentication contract;

step 4, implementing a digital space gift-transferring process based on the gift-transferring contract;

and 5, implementing the NFR issuing and settlement process based on the judicial unit supervision contract and the manual and automatic settlement intelligent contract or the full-automatic settlement intelligent contract.

Preferably, the user registration and digital space establishment procedure includes:

step 11, a user implements NFR platform user registration;

step 12, the user implements user real name authentication;

and step 13, obtaining a personal digital space block chain address H after the NFR platform user registration and the user real name authentication.

Preferably, the process of determining right and binding of the digital work includes:

step 21, the user submits the digital work distribution application from the work ready for distribution through the related right certificate, the right certificate includes: government copyright registration information, development time, history of related authors and previous rights and interests;

step 22, verifying the right certificate through the NFR platform, and returning the issuing application if the information filling manner of the right certificate is incorrect or incomplete; if the information filling mode of the right certificate is correct and complete, continuing to step 23;

step 23, collecting the relevant data of the digital work on the relevant organization and the network, and verifying whether the handed information of the right certificate is correct or not; if the information content of the right certificate is incorrect or incomplete, returning the issuing application; otherwise, continuing the step 24;

step 24, a block chain digital right authentication service is used for endowing the digital work with a final unique certificate Hash C, wherein the certificate Hash C is a final Hash generated after a plurality of Hash generated by collecting issuer information and work information;

step 25, binding the issuer's user identification to the credential hash C, thereby completing the validation and binding of the digital work.

Preferably, in addition to the collective issuer information and the work information, other additional information may be incorporated into the plurality of hashes to collectively calculate the credential hash C, the other additional information including 3 rd party authentication information, history information, time information, participant information, and/or location information, and the other additional information is encrypted multiple times to enhance uniqueness.

Preferably, the NFR primary network publishing process includes:

step 31, after determining that a certain NFR work can be initially issued on the network, the NFR platform binds the certificate hash C of the NFR work with a block chain personal space address corresponding to a purchaser or a user having the user identifier, thereby completing a transaction and space transfer of the NFR work;

step 32, generating a record of the digital space for tracking the NFR work.

Preferably, the digital space gifting process includes:

step 41, starting the digital space gifting, acquiring a space block chain address B of a gifting target, and inquiring an identification ID of the gifting target through the space block chain address B of the gifting target;

step 42, verifying whether the space block chain address B of the referral target is an effective block chain address, and when the space block chain address B of the referral target is the effective block chain address, calling block chain number right transfer service, unbinding the identification ID of the referrer and the NFR of the work, and binding the NFR work and the identification ID of the referral target to finish the referral service; when the space blockchain address B of the referral target is an invalid blockchain address, the current sub-digital space referral process is terminated, and the process returns to step 41.

Preferably, the NFR issuance settlement process includes:

step 51, initiating a settlement application;

step 52, obtaining settlement data of the user in multiple dimensions; wherein the multi-dimensions include issuer ID, blockchain space address, order ID, and NFR hash;

step 53, settlement audit is carried out;

and step 54, finishing settlement.

Preferably, the NFR system has a plurality of blockchain systems, and some or all of the blockchain systems are used for billing and for checking correctness of the manual + automated settlement intelligent contract; when the NFR system is mature and operates for many years, the check-up can be completed by adopting a full-automatic settlement intelligent contract.

Preferably, the NFR issuance settlement process can use digital rmb or other compliant digital currencies to implement manual + automated settlement or fully automated settlement intelligence contracts.

The invention has the beneficial effects that:

the intelligent contract and the operation method form an NFR issuing contract protocol based on the intelligent contract, and form user registration on an NFR internal protocol and a complete issuing contract protocol for submitting a digital work in the NFR system without a digital token and a payment system and adopting a real-name system, thereby perfecting the whole NFR system and ensuring the operation efficiency and effect of the NFR system.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. The objects and features of the present invention will become more apparent in view of the following description taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a diagram of a TOC issuing intelligence contract architecture in accordance with a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram illustrating a registration process of a user block chain space address according to a preferred embodiment of the present invention.

Fig. 3 is a schematic diagram of a process of creating/issuing NFR by a user according to a preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of the NFR transaction/referral flow according to the preferred embodiment of the invention.

Fig. 5 is a schematic diagram of the NFR issuance settlement flow according to the preferred embodiment of the present invention.

Detailed Description

In order to make the present invention more comprehensible with respect to its gist, the present invention will be further described with reference to the accompanying drawings and examples. In the following description, numerous specific details and specific examples are set forth in order to provide a more thorough understanding of the present invention and to provide a thorough understanding of the present invention. While this invention is susceptible of embodiment in many different forms than that described herein, there will be many equivalents to those skilled in the art which incorporate such variations and modifications without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

In the following description, numerous specific details and specific examples are set forth in order to provide a more thorough understanding of the present invention and to provide a thorough understanding of the present invention. While this invention is susceptible of embodiment in many different forms than that described herein, there will be many equivalents to those skilled in the art which incorporate such variations and modifications without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

As shown in fig. 1, the present embodiment provides an NFR issuing intelligent contract, where the NFR issuing intelligent contract is completed by a group of intelligent contracts cooperating with each other, and the NFR issuing intelligent contract includes:

the method comprises the following steps of a certificate storage center tracing contract, a certification center authority confirmation contract, a distribution center issuing contract, a transfer contract and a judicial unit supervision contract, wherein the certificate storage center tracing contract is used for user registration and digital space establishment processes, the certification center authority confirmation contract is used for the authority confirmation and binding processes of the digital works, the distribution center issuing contract is used for NFR initial network issuing processes, the transfer contract is used for digital space transfer, and the judicial unit supervision contract is used for partial NFR issuing settlement processes.

The embodiment also provides an operation method of the NFR issuing intelligent contract, which includes:

step 1, based on the contract tracing of the evidence storing center, implementing user registration and digital space establishing processes;

step 2, implementing the flow of digital work right confirmation and binding based on the authentication center right confirmation contract;

step 3, implementing NFR network issuing process based on the authentication center authentication contract;

step 4, implementing a digital space gift-transferring process based on the gift-transferring contract;

and 5, implementing the NFR issuing and settlement process based on the judicial unit supervision contract and the manual and automatic settlement intelligent contract or the full-automatic settlement intelligent contract.

Referring to fig. 2, as a preferred embodiment, the user registration and digital space establishment procedure includes:

step 11, a user implements NFR platform user registration;

step 12, the user implements user real name authentication;

and step 13, obtaining a personal digital space block chain address H after the NFR platform user registration and the user real name authentication.

The digital space is a place for storing the NFR on the NFR platform, and each digital space is hashed in a real name manner and becomes a digital space unique to the world. Each person or entity may have its own digital space address after being authenticated by real name. If the information is incorrect or incomplete, the release application is returned without giving an address to the number space.

Due to the adoption of a real name system, the digital space address cannot be changed and cannot be given to other people or units.

The platform side, the user and any side can not change the digital space identity card, and once the digital space identity card is changed, the digital space identity card is a new digital space. For example, the user changes his/her digital space, and when the digital space is taken out, the platform side finds that the real name of the digital space is not matched with the real name of the digital space, and refuses to use the provided digital space. If the platform side uses other number space addresses, this address may be empty or belong to an address of another user. If the name space is empty, the platform side cannot be used, and if the name space is used by another client, the registered name on the digital space is in username conflict.

Since the platform has the address of the digital space and each NFR also has the digital identity, when an NFR is placed in a digital space, the NFR is bound in the digital space. This NFR and the digital space are bound unless the user proposes a referral or a transaction.

The platform side stores user information and number space addresses on the platform blockchain system, protects users and their number spaces, and prevents users and platform operators from changing information.

If the user loses the digital space address, the platform side can retrieve the digital space address only by inquiring the platform side with the real name, and the platform side stores the user name word and the digital space address on the block chain.

Referring to fig. 3, as a preferred embodiment, the process of the right determination and binding of the digital work includes:

step 21, the user submits the digital work distribution application from the work ready for distribution through the related right certificate, the right certificate includes: government copyright registration information, development time, history of related authors and previous rights and interests;

step 22, verifying the right certificate through the NFR platform, and returning the issuing application if the information filling manner of the right certificate is incorrect or incomplete; if the information filling mode of the right certificate is correct and complete, continuing to step 23;

step 23, collecting the relevant data of the digital work on the relevant organization and the network, and verifying whether the handed information of the right certificate is correct or not; if the information content of the right certificate is incorrect or incomplete, returning the issuing application; otherwise, continuing the step 24;

step 24, a block chain digital right authentication service is used for endowing the digital work with a final unique certificate hash C, wherein the certificate hash C is a final hash generated after a plurality of hashes generated by collecting issuer information and work information are collected, core information cannot be exposed through the certificate hash C, and related information can be inquired through the certificate hash C on the premise of obtaining authorization;

step 25, binding the issuer's user identification to the credential hash C, thereby completing the validation and binding of the digital work.

As a preferred embodiment, in addition to the information of the issuer and the information of the work, other additional information may be incorporated into the multiple hashes to jointly calculate the credential hash C, where the other additional information includes the 3 rd party authentication information, the history information, the time information, the participant information and/or the location information, and the other additional information is encrypted multiple times to enhance uniqueness, for example, the history information and the time information are combined to calculate a hash D, and the hash D and the participant information are hashed again to obtain a hash value E, and the hash value E is used to calculate the credential hash C. Of course, the above is merely an example of one combination, and many other combinations are possible.

Referring to the last step of fig. 3, as a preferred embodiment, the NFR initial network publishing process includes:

step 31, after determining that a certain NFR work can be initially issued on the network, the NFR platform binds the certificate hash C of the NFR work with a block chain personal space address corresponding to a purchaser or a user having the user identifier, thereby completing a transaction and space transfer of the NFR work; when the NFR credential hash C is bound to a digital space, the NFR is owned by the user of the digital space, and the transaction also exists on the transaction record of the digital space

Step 32, generating a record of the digital space for tracking the NFR work.

Referring to fig. 4, as a preferred embodiment, the digital space gifting process includes:

step 41, starting the digital space gifting, acquiring a space block chain address B of a gifting target, and inquiring an identification ID of the gifting target through the space block chain address B of the gifting target;

step 42, verifying whether the space block chain address B of the referral target is an effective block chain address, and when the space block chain address B of the referral target is the effective block chain address, calling block chain number right transfer service, unbinding the identification ID of the referrer and the NFR of the work, and binding the NFR work and the identification ID of the referral target to finish the referral service; when the space blockchain address B of the referral target is an invalid blockchain address, the current sub-digital space referral process is terminated, and the process returns to step 41.

Referring to fig. 5, the NFR issuance settlement process includes:

since NFRs have no digital tokens and no payment system, they cannot settle directly. By adopting a mode of combining manual and automatic settlement intelligent contracts, an issuer acquires settlement data of a user through clicking settlement or according to a settlement contract set by a system and through multiple dimensions of an issuer ID, a block chain space address, an order ID, NFR hash and the like, and the requirement of the user for settlement anytime and anywhere can be met. The method comprises the following steps:

step 51, initiating a settlement application;

step 52, obtaining settlement data of the user in multiple dimensions; wherein the multi-dimensions include issuer ID, blockchain space address, order ID, and NFR hash;

step 53, settlement audit is carried out;

and step 54, finishing settlement.

Preferably, the NFR system has a plurality of blockchain systems, and some or all of the blockchain systems are used for billing and for checking the correctness of the manual + automated settlement intelligence contracts.

Preferably, after the NFR system is mature and operates for many years, the check-out can be completed by using a full-automatic settlement intelligent contract.

Preferably, the NFR issuance settlement process can use digital rmb or other compliant digital currencies to implement manual + automated settlement or fully automated settlement intelligence contracts.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

1. An application scenario.

A user needs to obtain the qualification of issuing NFR after registration and real-name authentication in personal space, and also obtain its block-chain personal space address (hash a), which is globally unique and is also its unique id on the NFR platform. The NFR made and issued by the user is bound to the hash a, so as to obtain the right of the NFR.

After the user finishes the preparation work, the user can make and issue the NFR on the NFR platform, and needs to submit the NFR-related authoring data including but not limited to copyright-related information, issue time, price, quantity, rights and interests description, rights and interests safeguards, and the like, after the platform passes verification and verification, the NFR-related data enters the rights authentication service to obtain the unique certificate hash C of the NFR, and the certificate hash C and the hash a are bound, so that the right, binding, making and issuing of the NFR are completed.

Other users may purchase or request NFR works from the producer or issuer of the NFR, and when the transaction is completed, the NFR transaction service will bind the NFR hash C to the blockchain space address hash a of its new holder, thereby completing the transfer of the NFR work.

Certainly, the user can also actively give away the NFR work manufactured and distributed by the user to other people, and only needs to obtain the blockchain space address B of the given person, and after the valid and legal blockchain space address is verified by the NFR platform, the a and the hash C are unbound, and the B and the hash C are bound, so that the giving away of the NFR is completed.

Within a time specified by the NFR platform, the user can settle the data for their NFR sale by clicking a settlement button.

2. The intelligent contract and the operation method thereof form a user-side program MYNFR and a personal issuing operation mode:

(1) registration login

And opening the MYNFR small program, logging in by using a WeChat account, and obtaining the personal block chain space address.

(2) Authentication and subscription

And (3) authentication: and clicking a real-name authentication button to perform real-name authentication.

Signing: entering the 'NFR issue' page, clicking the contract, and performing personal issue contract transaction.

(3) NFR distribution

And (3) issuing: entering the 'NFR issue' page, clicking to issue, and submitting related data according to the page.

Submitting: clicking a 'submit' button, paying the issuing cost, and entering a background auditing process.

And (4) auditing: after the audit is passed, the user can go on and off the shelf and can not make any modification. After the audit fails, the user can perform modification operation and resubmit the audit to enter

Loading and unloading: and after the NFR passes the audit, the operation of going on and off the shelf can be carried out.

(4) Transformations of NFR

And (4) transferring: entering an 'NFR issuing' page, clicking one NFR in an NFR list, entering a detail page, and giving away to other users.

(5) Settlement of fees

And (4) settlement: entering a 'NFR issuing' page, clicking to settle at a fixed time every week, and settling the NFR sales in the settlement period.

And (4) settlement recording: entering the 'NFR issuing' page, clicking the settlement records, and checking the past settlement records.

The intelligent contract and the operation method form an NFR issuing contract protocol based on the intelligent contract, form user registration on an NFR internal protocol and complete issuing contract protocol for submitting a digital work in the NFR system without a digital token and a payment system and adopting a real-name system, thereby perfecting the whole NFR system and ensuring the operation efficiency and effect of the NFR system.

While the present invention has been described with reference to the particular illustrative embodiments, it is not to be restricted by the embodiments but only by the appended claims. It will be understood by those skilled in the art that variations and modifications of the embodiments of the present invention can be made without departing from the scope and spirit of the invention.

Claims (10)

1. An NFR issuing intelligent contract, wherein said NFR issuing intelligent contract is completed by a group of intelligent contracts working in cooperation with each other, comprising:

the method comprises the following steps of a certificate storage center tracing contract, a certification center authority confirmation contract, a distribution center issuing contract, a transfer contract and a judicial unit supervision contract, wherein the certificate storage center tracing contract is used for user registration and digital space establishment processes, the certification center authority confirmation contract is used for the authority confirmation and binding processes of the digital works, the distribution center issuing contract is used for NFR initial network issuing processes, the transfer contract is used for digital space transfer, and the judicial unit supervision contract is used for partial NFR issuing settlement processes.

2. A method for operating an NFR issuing intelligent contract according to claim 1, comprising:

step 1, based on the contract tracing of the evidence storing center, implementing user registration and digital space establishing processes;

step 2, implementing the flow of digital work right confirmation and binding based on the authentication center right confirmation contract;

step 3, implementing NFR network issuing process based on the authentication center authentication contract;

step 4, implementing a digital space gift-transferring process based on the gift-transferring contract;

and 5, implementing the NFR issuing and settlement process based on the judicial unit supervision contract and the manual and automatic settlement intelligent contract or the full-automatic settlement intelligent contract.

3. The method of claim 2, wherein the user registration and digital space creation process comprises:

step 11, a user implements NFR platform user registration;

step 12, the user implements user real name authentication;

and step 13, obtaining a personal digital space block chain address H after the NFR platform user registration and the user real name authentication.

4. The method of claim 2, wherein the process of validating and binding the digital work comprises:

step 21, the user submits the digital work distribution application from the work ready for distribution through the related right certificate, the right certificate includes: government copyright registration information, development time, history of related authors and previous rights and interests;

step 22, verifying the right certificate through the NFR platform, and returning the issuing application if the information filling manner of the right certificate is incorrect or incomplete; if the information filling mode of the right certificate is correct and complete, continuing to step 23;

step 23, collecting the relevant data of the digital work on the relevant organization and the network, and verifying whether the handed information of the right certificate is correct or not; if the information content of the right certificate is incorrect or incomplete, returning the issuing application; otherwise, continuing the step 24;

step 24, a block chain digital right authentication service is used for endowing the digital work with a final unique certificate Hash C, wherein the certificate Hash C is a final Hash generated after a plurality of Hash generated by collecting issuer information and work information;

step 25, binding the issuer's user identification to the credential hash C, thereby completing the validation and binding of the digital work.

5. The method of claim 4, wherein additional information may be incorporated into the multiple hashes in addition to the collection issuer information and the work information to collectively compute the credential hash C, the additional information including 3 rd party authentication information, history information, time information, participant information, and/or location information, and the additional information is encrypted multiple times to enhance uniqueness.

6. The operating method according to claim 2, wherein the NFR primary network publishing process comprises:

step 31, after determining that a certain NFR work can be initially issued on the network, the NFR platform binds the certificate hash C of the NFR work with a block chain personal space address corresponding to a purchaser or a user having the user identifier, thereby completing a transaction and space transfer of the NFR work;

step 32, generating a record of the digital space for tracking the NFR work.

7. The method of operation of claim 2, wherein the digital space referral process comprises:

step 41, starting the digital space gifting, acquiring a space block chain address B of a gifting target, and inquiring an identification ID of the gifting target through the space block chain address B of the gifting target;

step 42, verifying whether the space block chain address B of the referral target is an effective block chain address, and when the space block chain address B of the referral target is the effective block chain address, calling block chain number right transfer service, unbinding the identification ID of the referrer and the NFR of the work, and binding the NFR work and the identification ID of the referral target to finish the referral service; when the space blockchain address B of the referral target is an invalid blockchain address, the current sub-digital space referral process is terminated, and the process returns to step 41.

8. The method of claim 2, wherein the NFR issuance settlement process comprises:

step 51, initiating a settlement application;

step 52, obtaining settlement data of the user in multiple dimensions; wherein the multi-dimensions include issuer ID, blockchain space address, order ID, and NFR hash;

step 53, settlement audit is carried out;

and step 54, finishing settlement.

9. The method of claim 8, wherein the NFR system has a plurality of blockchain systems, some or all of which are used for billing and for validating correctness of human + automated settlement intelligence contracts; when the NFR system is mature and operates for many years, the check-up can be completed by adopting a full-automatic settlement intelligent contract.

10. The method of operation as claimed in claim 9 wherein the NFR issuance settlement process can implement manual + automated settlement or fully automated settlement intelligence contracts using digital rmb or other compliant digital currencies.

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