CN113888324A - System for data intercommunication in enterprise transaction scene based on block chain - Google Patents
System for data intercommunication in enterprise transaction scene based on block chain Download PDFInfo
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- CN113888324A CN113888324A CN202010627056.5A CN202010627056A CN113888324A CN 113888324 A CN113888324 A CN 113888324A CN 202010627056 A CN202010627056 A CN 202010627056A CN 113888324 A CN113888324 A CN 113888324A
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Abstract
The invention discloses a system for data intercommunication in an enterprise transaction scene based on a block chain, which comprises the following steps: A. matching supply and demand; B. forming an order; C. signing a contract; D. confirming funds; E. warehousing and transporting; F. cargo delivery, the invention utilizes the block chain technology to dispersedly acquire, analyze and process information flow, fund flow and logistics data in an enterprise transaction scene, but the current situation that the advantages of full-flow panoramic big data cannot be uniformly utilized is improved, and required information is uniformly collected in the platform and then is confirmed and stored. A convenient and feasible bottom platform is provided for data communication among enterprises under the weak trust condition, and the enterprises do not need to respectively find ways for information flow, fund flow and logistics data communication.
Description
Technical Field
The invention relates to the technical field of block chains, in particular to a data intercommunication system in an enterprise transaction scene based on a block chain.
Background
In a business-to-business transaction scenario, interactions that typically involve three dimensions, information, funds, and goods, are conducted simultaneously or alternately. The three-dimensional interaction forms the information flow, the fund flow and the logistics of the inter-enterprise transaction respectively. Under the traditional enterprise transaction scenario, when the mutual trust between enterprises is low, the data interaction of the three dimensions usually needs to be implemented by relying on third parties trusted by all the participating enterprises. For example, the information flow data is interacted through social/encryption software and a cloud platform; the capital flow data interacts with the banks by docking respectively; the logistics data is interacted by interfacing with logistics companies, respectively. Therefore, the data communication speed is reduced by selecting a credible third party for indirect communication, and the data management of an enterprise is inconvenient due to different data structures and interfaces supported and provided by the third party, so that more data exposure opportunities are caused, and data security risks are brought.
Disclosure of Invention
The invention aims to provide a system for data intercommunication in an enterprise transaction scene based on a block chain, so as to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme:
a system for data intercommunication in an enterprise transaction scene based on a block chain comprises the following steps:
A. matching supply and demand;
B. forming an order;
C. signing a contract;
D. confirming funds;
E. warehousing and transporting;
F. and (5) delivering the goods.
As a further technical scheme of the invention: the step A is specifically as follows: in the requirement matching link, all interactive data including voice, characters, pictures and digital certificates are encrypted to confirm the authority, and an encryption scheme including a ring signature is utilized to ensure that two or more parties participating in the transaction can carry out historical interactive data inspection through a block chain.
As a further technical scheme of the invention: the step B is specifically as follows: the method comprises the steps of storing uplink details of an order formed by two or more transaction parties through an order template, and carrying out hierarchical encryption on sensitive information on the order on the chain, so that all benefit-related parties on a platform can check corresponding detailed data in the order, wherein the encryption level is established by the platform, generally, the order is platform public information, but the order contains sensitive information, the sensitive information can be stored on a block chain platform in a hierarchical mode, and the subsequent link association and execution conditions corresponding to the order can also be stored on the block chain through hierarchical encryption.
As a further technical scheme of the invention: the step C is specifically as follows: through the intelligent contract, all orders on the block chain platform automatically enter a contract signing link, all transaction parties respectively carry out signature verification on the digital contract, the contract and all the signatures take effect after being verified by the block chain platform, the electronic contract is encrypted and stored on the block chain and is automatically supervised and executed by the platform through the intelligent contract, and the contract execution state is encrypted and stored on the block chain in a hierarchical mode.
As a further technical scheme of the invention: the step D is specifically as follows: the fund condition of interest-related parties involved in a contract is confirmed by a blockchain platform, a fund confirmation link can be involved before a contract is signed and a contract flow is completely finished, the confirmation process can be automatic or semi-automatic, the semi-automatic confirmation process needs certain manual participation, the confirmation mode comprises confirmation through an interface provided by a third-party financial institution, confirmation through an electronic fund certificate approved by the blockchain platform, confirmation through a fund condition explanation certificate provided for the platform and needing manual authentication, the platform automatically or semi-automatically confirms according to the certificate provided by a contract-related fund provider, and the confirmation result is recorded in an order and a contract execution state.
As a further technical scheme of the invention: the step E is specifically as follows: through the intelligent contract, the storage logistics data related to contract execution can be confirmed by the blockchain platform, the order and the contract execution state are recorded, the logistics situation can be automatically monitored by the platform, and the monitoring is carried out through the records of the order and the contract execution state.
As a further technical scheme of the invention: the step F is specifically as follows: the method comprises the steps of executing delivery and settlement behaviors to two or more transaction parties in batches according to a link of a transaction place by utilizing an intelligent contract, wherein the batches comprise blocks where a block chain platform verifies data such as contract signing, fund confirmation, warehouse logistics departure, partial arrival and the like, the payment behaviors comprise payment behaviors caused by contract fulfillment, payment behaviors caused by contract violation and payment behaviors caused by platform regulation violation, and the payment mode comprises payment behaviors brought by an open interface with a third-party financial institution and automatically controlled by the block chain platform, payment behaviors executed by platform points, electronic payment certificates provided by the third-party financial institution and automatically identified by a submission platform and payment certificates required to be manually confirmed.
Compared with the prior art, the invention has the beneficial effects that: 1. the block chain technology is utilized to improve the current situations of information flow, fund flow and logistics data scattered acquisition, analysis and processing in the enterprise transaction scene, and required information is uniformly collected in the platform and then is subjected to right confirmation and evidence storage. The dependence on a trusted third party on data interaction can be separated by constructing the platform among enterprises. A convenient and feasible bottom platform is provided for data communication among enterprises under the weak trust condition, and the enterprises do not need to respectively find ways for information flow, fund flow and logistics data communication.
2. The data platforms built by the original enterprises are integrated on a distrust-removing distributed platform, and on the premise of ensuring the information security of the enterprises, the data sharing service is provided, so that the data interaction requirements required in the transaction among the enterprises are met, the work built by each enterprise is reduced, and the difficulty of enjoying the comprehensive data service by the enterprises is reduced.
3. The platform design reduces the transaction risk among enterprises, and information flow, fund flow and logistics information confirm the right and deposit the certificate through the block chain, thereby protecting the whole transaction process and avoiding the transaction risk caused by the asymmetric information interaction in the conventional general solution.
Drawings
Figure 1 is a flow chart of the present invention,
fig. 2 is a schematic diagram of each link and related data in a chain.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, embodiment 1: a system for data intercommunication in an enterprise transaction scene based on a block chain comprises the following steps:
supply and demand matching:
in the requirement matching link, all interactive data including but not limited to voice, characters, pictures, digital certificates and the like are encrypted to confirm the authority, and an encryption scheme including but not limited to a ring signature is utilized to ensure that two or more parties participating in the transaction can carry out historical interactive data inspection through a block chain.
Forming an order:
the order details formed by two parties or multiple parties of a transaction are stored and linked through an order template, and sensitive information on the linked order is encrypted in a hierarchical mode, so that all stakeholders on a platform can check corresponding detailed data in the order. The encryption hierarchy is established by the platform. Generally, the order is platform public information, but sensitive information such as order amount and the like can be related in the order, and the sensitive information is encrypted and stored on the blockchain platform in a hierarchical mode. The subsequent link association and execution corresponding to the order is also verified on the blockchain through hierarchical encryption.
Signing a contract:
through the intelligent contract, all orders on the block chain platform automatically enter a contract signing link, all transaction parties respectively carry out signature verification on the digital contract, and the contract and all signatures take effect after being verified by the block chain platform. The electronic contract is stored in a block chain in an encrypted manner and is automatically supervised and executed by the platform through an intelligent contract. The contract execution state is saved on the blockchain in a hierarchical encryption manner.
And (3) fund confirmation:
the funding of stakeholders involved in the contract is confirmed by the blockchain platform. The fund confirmation link can be involved before the contract is signed and the contract flow is completely finished. The validation process may be automatic or semi-automatic validation. Semi-automatic here refers to a validation process that requires some manual involvement. The confirmation method includes, but is not limited to, confirmation through an interface provided by a third-party financial institution, confirmation through providing an electronic fund certificate approved by a blockchain platform, confirmation through providing a fund situation explanation certificate which needs to be manually authenticated by the platform, and the like. The platform automatically or semi-automatically validates in light of the contract involving credentials provided by the funds provider. The confirmation result is entered into the order and contract execution status.
Storage and logistics:
through the intelligent contract, the storage flow data related to the contract execution is confirmed by the blockchain platform, and the order and the contract execution state are recorded. The logistics situation can be automatically monitored by the platform and is supervised through the records of orders and contract execution states.
Cargo delivery:
and carrying out delivery and settlement behaviors in batches and in batches for two or more parties of the transaction according to the link of the exchange by utilizing the intelligent contract. Batch here includes, but is not limited to, verifying at the blockchain platform that blocks where data such as contract endorsements, fund confirmations, warehouse logistics departures, partial arrivals, etc. are located. Payment actions include, but are not limited to, payment actions due to contract fulfillment, payment actions due to contract violations, payment actions due to violation of platform regulations, and the like. Payment methods include, but are not limited to, payment activities that may be automatically controlled by the blockchain platform through an open interface with a third-party financial institution, execution of payment activities through platform credits, submission of electronic payment credentials provided by the third-party financial institution that may be automatically recognized by the platform, provision of payment credentials requiring manual confirmation, and the like.
Example 2, based on the above example 1, the links of the background layer platform and the related data are shown in fig. 2. In the whole process, one or more of fund confirmation, warehouse logistics and delivery settlement links are automatically or semi-automatically executed in batches and in batches based on the execution conditions of orders and contracts.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (7)
1. A system for data intercommunication in an enterprise transaction scene based on a block chain is characterized by comprising the following steps:
A. matching supply and demand;
B. forming an order;
C. signing a contract;
D. confirming funds;
E. warehousing and transporting;
F. and (5) delivering the goods.
2. The system for data intercommunication in block chain based enterprise transaction scenario according to claim 1, wherein said step a specifically is: in the requirement matching link, all interactive data including voice, characters, pictures and digital certificates are encrypted to confirm the authority, and an encryption scheme including a ring signature is utilized to ensure that two or more parties participating in the transaction can carry out historical interactive data inspection through a block chain.
3. The system for data intercommunication in block chain based enterprise transaction scenario according to claim 1, wherein said step B specifically is: the method comprises the steps of storing uplink details of an order formed by two or more transaction parties through an order template, and carrying out hierarchical encryption on sensitive information on the order on the chain, so that all benefit-related parties on a platform can check corresponding detailed data in the order, wherein the encryption level is established by the platform, generally, the order is platform public information, but the order contains sensitive information, the sensitive information can be stored on a block chain platform in a hierarchical mode, and the subsequent link association and execution conditions corresponding to the order can also be stored on the block chain through hierarchical encryption.
4. The system for data intercommunication in block chain based enterprise transaction scenario according to claim 1, wherein said step C specifically is: through the intelligent contract, all orders on the block chain platform automatically enter a contract signing link, all transaction parties respectively carry out signature verification on the digital contract, the contract and all the signatures take effect after being verified by the block chain platform, the electronic contract is encrypted and stored on the block chain and is automatically supervised and executed by the platform through the intelligent contract, and the contract execution state is encrypted and stored on the block chain in a hierarchical mode.
5. The system for data intercommunication in block chain based enterprise transaction scenario according to claim 1, wherein said step D specifically is: the fund condition of interest-related parties involved in a contract is confirmed by a blockchain platform, a fund confirmation link can be involved before a contract is signed and a contract flow is completely finished, the confirmation process can be automatic or semi-automatic, the semi-automatic confirmation process needs certain manual participation, the confirmation mode comprises confirmation through an interface provided by a third-party financial institution, confirmation through an electronic fund certificate approved by the blockchain platform, confirmation through a fund condition explanation certificate provided for the platform and needing manual authentication, the platform automatically or semi-automatically confirms according to the certificate provided by a contract-related fund provider, and the confirmation result is recorded in an order and a contract execution state.
6. The system for data intercommunication in block chain based enterprise transaction scenario according to claim 1, wherein said step E specifically is: through the intelligent contract, the storage logistics data related to contract execution can be confirmed by the blockchain platform, the order and the contract execution state are recorded, the logistics situation can be automatically monitored by the platform, and the monitoring is carried out through the records of the order and the contract execution state.
7. The system for data intercommunication in block chain based enterprise transaction scenario according to claim 1, wherein said step F specifically is: the method comprises the steps of executing delivery and settlement behaviors to two or more transaction parties in batches according to a link of a transaction place by utilizing an intelligent contract, wherein the batches comprise blocks where a block chain platform verifies data such as contract signing, fund confirmation, warehouse logistics departure, partial arrival and the like, the payment behaviors comprise payment behaviors caused by contract fulfillment, payment behaviors caused by contract violation and payment behaviors caused by platform regulation violation, and the payment mode comprises payment behaviors brought by an open interface with a third-party financial institution and automatically controlled by the block chain platform, payment behaviors executed by platform points, electronic payment certificates provided by the third-party financial institution and automatically identified by a submission platform and payment certificates required to be manually confirmed.
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CN116542748A (en) * | 2023-06-27 | 2023-08-04 | 辰风策划(深圳)有限公司 | Method and system for real-time processing on goods wholesale line |
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CN116542748A (en) * | 2023-06-27 | 2023-08-04 | 辰风策划(深圳)有限公司 | Method and system for real-time processing on goods wholesale line |
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