CN112465660A - Open source block chain traceability system based on superridge framework technology - Google Patents

Abstract

The invention discloses an open source block chain traceability system based on a hyper-bridge framework technology, which comprises an open source block chain application using the hyper-bridge framework technology architecture, and is characterized in that: the system also comprises a block chain traceability system; the open source block chain is connected with an Internet of things chip system in an application manner, acquires Internet of things big data information, and is divided into a plurality of modules and nodes for data cluster binding and mapping; the block chain traceability system sets a traceability boundary hierarchy according to the bound modules and the node data cluster, and is provided with a traceability boundary hierarchy management module, a traceability module, a data generation and storage module and a traceability trigger request module. The invention can save calculation power, intuitively, accurately and quickly trace the source of the block chain of any node, and avoid damaging innocent and trapping in operation dead cycle.

Description

Open source block chain traceability system based on superridge framework technology

Technical Field

The invention relates to the field of open source block chain traceability, in particular to an open source block chain traceability system based on a hyper-ridger framework technology.

Background

The traditional tracing technology has three types, one is RFID wireless radio frequency technology, and the flow direction of the product is recorded on a chip; the second is a two-dimensional code; still another is a bar code plus product lot information (e.g., date of manufacture, time of manufacture, lot number, etc.). Blockchain tracing, although using blockchain technology, is not a systematic matter that can implement tracing using only blockchains. Compared with the traditional tracing, the block chain tracing realizes the characteristics of data that the data can not be tampered and can be completely traced, breaks an information island, and prevents the commercial competition problem caused by malicious channel conflict. In recent years, traditional inspection has made it difficult to meet market specifications and consumer requirements, and blockchain traceability has become the direction of traceability industry development, covering a number of industries including the fashion luxury industry, food safety, automotive industry, supply chain industry, agricultural industry, and the like. In addition, a new online traceability chain, an intelligent chain for food traceability and a deep and expensive paper technology are provided. Although blockchain tracing is a direction of great heat, the current total landing projects are few, and before investment, people hope to think about rationally and add analysis.

The invention patent with the prior art publication number of CN110706008A discloses a traceability processing method based on a blockchain and a blockchain distributed traceability system, the method constructs a blockchain distributed traceability system comprising a platform node, a plurality of enterprise nodes and a plurality of supervision nodes, and the platform node and the corresponding nodes in the supervision nodes in the system simultaneously take the roles of master and slave accounting nodes, on the basis, for all commodity transaction information generated by the enterprise nodes and the supervision nodes, traceability information corresponding to the transaction information is stored to all accounting nodes in a distributed manner based on the blockchain idea, because the blockchain idea stores the commodity traceability information in multiple portions in a distributed manner, the expense of tampering the traceability information is very high, all the nodes are required to be modified simultaneously so that the traceability information is tampered successfully, and the tampering cost of the tampering is far beyond the expected profit, and the tampering difficulty is higher, so that the authenticity of the commodity traceability information is ensured as much as possible, and the credibility of the commodity traceability is improved.

The invention patent with the patent number of cn201910857557.x discloses a block chain-based business data uplink method and a system thereof, which are applied to a block chain system, wherein the system comprises at least one block chain node, and the method comprises the following steps: the block chain node receives service structure data sent by a service server, wherein the service structure data comprises the service ID, service associated attributes, service non-associated attributes and a creator ID; the block chain node packs the service structure data into a first block; after the block chain system passes the first block verification, the first block chain is linked, so that the process of business data can be linked, in the block chain system, the history of the business data corresponds to the ID of the business data, and a user can inquire the historical information of the business.

The invention patent with the patent number of CN201910306004.5 discloses an electronic warehouse receipt trading system based on a block chain and provided with an incentive mechanism, which comprises a hardware system and a software system, wherein the hardware system comprises a CA authentication server which is unique in the whole network, one or more independent warehouse storage subnets, a goods owner handheld device and one or more internet block chain accounting nodes; the software system comprises an application layer, an interface layer and a block chain protocol layer, a credible information storage and transaction platform is provided according to the characteristics of the storage system by utilizing the non-modifiable characteristics of a block chain, virtual coins are used as a reward form to be issued to storage nodes with high liveness, the liveness of each storage node can be effectively sequenced, the working enthusiasm of the storage nodes is improved, in reality, fewer places meeting requirements can be obtained, and therefore large-scale actual application is difficult to achieve, the software system is still in a continuous research stage, cannot adapt to places with complex environments, cannot be applied according to a voice environment, can provide some basic technical supports on the bottom layer logic, and cannot provide creative technical inspiration.

The invention patent with the publication number of CN108182585A discloses a system of a new retail anti-counterfeiting method based on a block chain technology, which comprises a device for providing a cloud block chain timestamp and a goods terminal device, wherein the goods terminal device is provided with a sensor, a timer and a data transmission device for dynamically generating a goods terminal block chain, a cloud block chain and a verification generation termination block chain.

The Fabric architecture provides the following advantages: flexibility of chain code trust, the architecture breaking down the trust assumptions of the chain code (block chain applications) from the ordering of the trust assumptions, the ordering service can be provided by a set of nodes (orderers) and tolerates some of them to fail or behave incorrectly and the supporters can be different for each chain code, scalability, the system can be better scaled than doing these functions through the same nodes since the supporter nodes responsible for a particular chain code are orthogonal to the subscribers, in particular when different chain codes specify disjoint supporters, this result is produced, the code introduces a partitioning of the chain code between codes and allows parallel chain code execution (endorsements), and furthermore, potentially costly chain code execution is removed from the critical path of the subscription service, privacy, the architecture facilitates the deployment of chain codes with confidentiality requirements with respect to the content and status updates of the transaction, the framework is modular and allows pluggable consistency (i.e., subscription service) implementations. Hyperlegger

In view of the above, the existing technologies are relatively incomplete, and therefore, it is necessary to research an open source blockchain traceability system based on a hyper-hedger framework technology, establish multiple levels, be suitable for various complex scene applications, facilitate user applications, and improve accuracy and processing efficiency.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides an open source block chain traceability system based on a hyper-ridger framework technology, the design is novel, the calculation can be saved, the block chain traceability of any node can be intuitively, accurately and quickly carried out, the damage to innocent and trapped operation dead cycle is avoided, the whole flow of food production, processing and circulation is opened, a perfect source traceability closed loop is formed, the safety information traceability closed loop can be checked and confirmed, the responsibility can be found, and consumers can trace the product information and choose to purchase safe food.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

an open source block chain traceability system based on a hyper-hedgehog framework technology comprises an open source block chain application using a hyper-hedgehog framework technology architecture and a block chain traceability system; the open source block chain is connected with an Internet of things chip system in an application manner, acquires Internet of things big data information, and is divided into a plurality of modules and nodes for data cluster binding and mapping; the block chain traceability system sets a traceability boundary hierarchy according to the bound modules and the node data cluster, and is provided with a traceability boundary hierarchy management module, a traceability module, a data generation and storage module and a traceability trigger request module; products or semi-finished products or components of commodities served by each farmer, processing service personnel, part manufacturers, assembly plants, logistics teams and marketing personnel are connected with the Internet of things chip and are used as data sources of Internet of things big data for tracing; the specific operation procedure is as follows:

a. setting a tracing boundary hierarchy for each data source according to the classification of products, semi-finished products or components and the state of the end user in hand, and taking the tracing boundary hierarchy as an authority tracing end point of different hierarchies;

b. setting a tracing boundary hierarchy for each data source according to the assembly flow and the logistics state of the product, the semi-finished product or the component; as divergent tracing nodes of different levels;

c. setting a source tracing boundary hierarchy for each data source according to the composition of a product or a semi-finished product or a component and the state of a processing program; as module tracing nodes of different levels;

d. the method comprises the following steps that (1) data of the Internet of things of farmers, processing service personnel, part manufacturers, assembly plants, logistics teams and marketing personnel in the participation field of the farmers, are filled into a data module of the farmers, and a node data group is constructed;

e. the tracing boundary hierarchy management module constructs a node data cluster, a module tracing node, a bifurcation tracing node and an authority tracing end point into a tracing boundary network according to the composition, processing and logistics path of a product, a semi-finished product or a component part, and carries out hierarchical management;

f. a customer or a user or a traceability system manager starts a traceability trigger request module according to the requirement, and traceability content is input or expressed;

g. starting a tracing module, calling a tracing boundary hierarchy management module, matching a tracing boundary network in a hierarchical level, dividing a tracing boundary, and calling a related or related authority tracing endpoint, a bifurcation tracing node, a module tracing node and a node data cluster in the hierarchical level in sequence;

h. and comparing, screening and eliminating contents needing tracing, importing the final module tracing nodes and node data groups which meet requirements or generate problems or have problem suspicions into a data generation and storage module, and outputting tracing results.

Preferably, the open source blockchain applications include new retail, and various internet of things applications relating to food, chain catering processes or services.

Preferably, the authority traceability end point is a traceability cut-off boundary set when a product finally contacted with a user or a customer is subjected to traceability, and the traceability process is performed until the boundary is reached regardless of the traceability result.

Preferably, the forked traceability node can separate parts which are obviously unrelated or have no mutual influence and are mutually related in the product according to the composition, the processing path and the logistics path of the product, and all data are prevented from being extracted and traced during traceability.

Preferably, the module tracing node merges obviously related or mutually influenced or related parts in the products according to the composition, processing path and logistics path of the products, and is used for tracing various influences of the current products on other products which are operated in the same batch once.

Preferably, a large amount of products or data are automatically collected into a virtual collection, namely the node data cluster, in the same batch, in the same place and at the same time.

Preferably, the source tracing boundary hierarchy is classified according to administrative divisions or distances between nodes or transfer times.

Preferably, the traceable boundary hierarchy is ranked by shelf life or time to withstand extreme environmental damage of the component or weak component.

Preferably, the tracing boundary hierarchy is manually graded by related responsible personnel according to the composition and complexity of the product and the executable subjective judgment basis.

The invention has the beneficial effects that:

1. the method has the advantages of unique thought, reasonable and concise logical structure, simple and direct data processing hierarchy, automatic binding of the data clusters to generate the data clusters, great reduction in data retrieval and calculation, and great saving in calculation power;

2. the tracing is flexible and quick, the result is direct, the development and venation influence among products can be clearly and clearly cleared, and the responsibility and the associated influence of the products are clear at a glance.

3. Through the open source block chain hyper-ridger fabric framework technology, the automatic input of information of food from raw material planting, breeding, production and processing and packaging logistics to the hands of consumers is realized, the whole flow of food production, processing and circulation is opened, a perfect source traceable closed loop is formed, the safety information traceable and responsibility traceable closed loop is formed, the consumers can trace product information and choose to purchase safe food.

The foregoing is a summary of the present invention, and in order to provide a clear understanding of the technical means of the present invention and to be implemented in accordance with the present specification, the following is a detailed description of the preferred embodiments of the present invention with reference to the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a schematic diagram of the technical components and operation of the present invention.

Detailed Description

The invention is further described with reference to the accompanying drawings in which:

referring to fig. 1, an open source blockchain traceability system based on a hyper-tree framework technology includes an open source blockchain application using a hyper-tree fabric framework technology architecture, and further includes a blockchain traceability system; the open source block chain is connected with an Internet of things chip system in an application manner, acquires Internet of things big data information, and is divided into a plurality of modules and nodes for data cluster binding and mapping; the block chain traceability system sets a traceability boundary hierarchy according to the bound modules and the node data cluster, and is provided with a traceability boundary hierarchy management module, a traceability module, a data generation and storage module and a traceability trigger request module; products or semi-finished products or components of commodities served by each farmer, processing service personnel, part manufacturers, assembly plants, logistics teams and marketing personnel are connected with the Internet of things chip and are used as data sources of Internet of things big data for tracing; a customer or a user or a traceability system manager starts a traceability trigger request module according to requirements, inputs or expresses traceability contents, sets traceability boundary levels for each data source according to the classification of products, semi-finished products or components and the state of the end user, and takes the traceability boundary levels as authority traceability endpoints of different levels; setting a tracing boundary hierarchy for each data source according to the assembly flow and the logistics state of the product, the semi-finished product or the component; as divergent tracing nodes of different levels; setting a source tracing boundary hierarchy for each data source according to the composition of a product or a semi-finished product or a component and the state of a processing program; as module tracing nodes of different levels; the method comprises the steps that data of the internet of things of each farmer, a processing service worker, a part manufacturer, an assembly plant, a logistics team and a marketing worker in the field of participation of the farmer, the internet of things data are filled into a data module of the farmer, a node data group is constructed, a traceability module is started, a traceability boundary layer management module is called, and the traceability boundary layer management module constructs the node data group, a module traceability node, a bifurcation traceability node and an authority traceability end point into a traceability boundary network according to the composition, processing and logistics path of a product or a semi-finished product or a component part and carries out hierarchical management; matching a tracing boundary network, dividing a tracing boundary, and calling related or related authority tracing end points, forked tracing nodes, module tracing nodes and node data clusters in a hierarchical level in sequence; and comparing, screening and eliminating contents needing tracing, importing the final module tracing nodes and node data groups which meet requirements or generate problems or have problem suspicions into a data generation and storage module, and outputting tracing results.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Example 1: some customers complain about the quality problem of some food, have grit in the pie, and the possibility of this kind of situation includes in reality: 1. a certain batch of flour is polluted by sand, 2, sand enters the environment in a certain production and processing flow, and 3, a certain staff deliberately puts in the sand; when tracing, three analysis main lines can be provided, each tracing analysis main line can be provided with an exclusive tracing analysis boundary, if the tracing flour is polluted by sandstone, a corresponding feeding channel of a certain batch of flour is extracted according to data of the Internet of things as an authority tracing end point, then logistics companies and flour factories are traced forwards as a bifurcation tracing node, then a certain day is positioned for transportation by a certain vehicle and is generated when the flour factory is generated, the node is used as a module tracing node, the flour in the same batch is traced and is generated by workers, and the selling flow is taken to where as a node data group, and finally customers of a marketing team and each purchased product are traced backwards, potential affected customers are traced, remedial measures are taken, tracing boundary level management is traced, and the situation is not too late, so that blind expansion of the situation is avoided; the tracing of irrelevant nodes such as pie packing factories, oil salt seasonings, pie production equipment, production staff and the like is eliminated, the tracing range is simplified, the tracing efficiency is improved, and innocent persons are prevented from being injured.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. The utility model provides an open source block chain traceability system based on hyperridge framework technique, includes the open source block chain application that uses hyperridge fabric technical framework, its characterized in that: the system also comprises a block chain traceability system; the open source block chain is connected with an Internet of things chip system in an application manner, acquires Internet of things big data information, and is divided into a plurality of modules and nodes for data cluster binding and mapping; the block chain traceability system sets a traceability boundary hierarchy according to the bound modules and the node data cluster, and is provided with a traceability boundary hierarchy management module, a traceability module, a data generation and storage module and a traceability trigger request module; products or semi-finished products or components of commodities served by each farmer, processing service personnel, part manufacturers, assembly plants, logistics teams and marketing personnel are connected with the Internet of things chip and are used as data sources of Internet of things big data for tracing; the specific operation procedure is as follows:

setting a tracing boundary hierarchy for each data source according to the classification of products, semi-finished products or components and the state of the end user in hand, and taking the tracing boundary hierarchy as an authority tracing end point of different hierarchies;

setting a tracing boundary hierarchy for each data source according to the assembly flow and the logistics state of the product, the semi-finished product or the component; as divergent tracing nodes of different levels;

setting a source tracing boundary hierarchy for each data source according to the composition of a product or a semi-finished product or a component and the state of a processing program; as module tracing nodes of different levels;

the method comprises the following steps that (1) data of the Internet of things of farmers, processing service personnel, part manufacturers, assembly plants, logistics teams and marketing personnel in the participation field of the farmers, are filled into a data module of the farmers, and a node data group is constructed;

the tracing boundary hierarchy management module constructs a node data cluster, a module tracing node, a bifurcation tracing node and an authority tracing end point into a tracing boundary network according to the composition, processing and logistics path of a product, a semi-finished product or a component part, and carries out hierarchical management;

a customer or a user or a traceability system manager starts a traceability trigger request module according to the requirement, and traceability content is input or expressed;

starting a tracing module, calling a tracing boundary hierarchy management module, matching a tracing boundary network in a hierarchical level, dividing a tracing boundary, and calling a related or related authority tracing endpoint, a bifurcation tracing node, a module tracing node and a node data cluster in the hierarchical level in sequence;

and comparing, screening and eliminating contents needing tracing, importing the final module tracing nodes and node data groups which meet requirements or generate problems or have problem suspicions into a data generation and storage module, and outputting tracing results.

2. The open-source blockchain traceability system based on the hyperridge framework technology of claim 1, wherein: the open source blockchain applications include new retail, and various internet of things applications relating to food, chain catering processes or services.

3. The open source blockchain traceability system based on the hyperridge framework technology of claim 2, wherein: the authority traceability end point is a traceability cut-off boundary which is set when a product finally contacted with a user or a customer is subjected to traceability, and the authority traceability end point is set up when the traceability process reaches the boundary regardless of the traceability result.

4. The open-source blockchain traceability system based on the hyperridge framework technology of claim 1, wherein: the bifurcate tracing node can separate parts which are obviously unrelated or have no mutual influence and are mutually related in the product according to the composition, the processing path and the logistics path of the product, and all data are prevented from being extracted and traced when tracing.

5. The open source blockchain traceability system based on the hyperridge framework technology in step g of claim 1, wherein: the module tracing node combines the parts which are obviously related or have mutual influence and mutual correlation in the products according to the composition, the processing path and the logistics path of the products, and is used for tracing various influences of the current products on other products which are operated in the same batch once.

6. The open-source blockchain traceability system based on the hyperridge framework technology of claim 1, wherein: and automatically collecting a large number of products or data into a virtual set according to the same batch, the same place and the same time, namely the node data cluster.

7. The open-source blockchain traceability system based on the hyperridge framework technology of claim 6, wherein: and the source tracing boundary layer is graded according to administrative divisions or distances among nodes or transfer times.

8. The open-source blockchain traceability system based on the hyperridge framework technology of claim 1, wherein: the traceability boundary hierarchy is graded by the shelf life or time to withstand extreme environmental damage of the component or weak component.

9. The open-source blockchain traceability system based on the hyperridge framework technology of claim 1, wherein: and the tracing boundary hierarchy is manually graded by related responsible personnel according to the composition and the complexity of the product and the executable subjective judgment basis.

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