WO2022237385A1 - 货物调拨信息处理方法、装置、设备及存储介质 - Google Patents
货物调拨信息处理方法、装置、设备及存储介质 Download PDFInfo
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- WO2022237385A1 WO2022237385A1 PCT/CN2022/084878 CN2022084878W WO2022237385A1 WO 2022237385 A1 WO2022237385 A1 WO 2022237385A1 CN 2022084878 W CN2022084878 W CN 2022084878W WO 2022237385 A1 WO2022237385 A1 WO 2022237385A1
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Definitions
- the present disclosure relates to the technical field of the Internet, and in particular, to a method, device, equipment, and readable storage medium for processing cargo allocation information.
- the transfer of goods between warehouses storing commodity goods has also established an important business process.
- the goods between warehouses of different organizations are transferred to each other, and the source warehouse and the destination warehouse will involve different organizational entities, which will involve the change of the owner of the goods, that is, the transfer of the rights of the goods.
- the centralized management system of related technologies cannot obtain real, complete and reliable cargo status data in real time.
- the transfer of cargo rights relies on paper transfer sheets, which may be inconsistent with the data in the management system. For example, the status of the goods may be abnormal, which will bring great difficulty to the audit.
- the purpose of the present disclosure is to provide a method, device, device, and readable storage medium for processing cargo allocation information, which can at least to a certain extent overcome the problem of inaccurate cargo allocation information caused by the use of paper cargo allocation sheets in related technologies.
- a method for processing information on goods allocation including: associating the non-homogeneous virtual resources corresponding to the inbound goods with the wallet address identified by the first user in the blockchain network, the The inbound goods include the goods to be shipped out; the outbound information is obtained, and the outbound information includes the identification of the goods to be outbound and the wallet address identified by the second user in the blockchain network; according to the outbound The identification of the goods in the warehouse authorizes the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped out, so that the second user terminal corresponding to the second user identification can perform the transfer operation, wherein the transfer operation is from An operation of transferring the wallet address identified by the first user to the wallet address identified by the second user.
- the method further includes: mapping the inbound goods to the blockchain network by calling the non-homogeneous virtual resource protocol to obtain the non-homogeneous virtual resources; the associating the non-homogeneous virtual resources corresponding to the goods in storage with the wallet address identified by the first user in the blockchain network includes: calling the non-homogeneous virtual resource protocol to transfer the imported The non-homogeneous virtual resources corresponding to the goods in the warehouse are associated with the wallet address identified by the first user in the blockchain network;
- Authorizing the transfer operation of the homogeneous virtual resources includes: performing the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped by calling the non-homogeneous virtual resource protocol according to the identification of the goods to be shipped authorized.
- the method further includes: querying the non-homogeneous virtual resource associated with the wallet address identified by the first user by calling the non-homogeneous virtual resource protocol; and/or by Invoking the non-homogeneous virtual resource protocol to query the non-homogeneous virtual resources associated with the wallet address identified by the second user.
- the obtaining the outbound information includes: obtaining goods allocation order information, the goods allocation order information including allocated goods information and second user information; The identification of the goods; obtaining the wallet address of the second user identification according to the second user information; the method further includes: generating an outbound document according to the goods transfer order information; uploading the outbound document through the server to the blockchain network.
- the method further includes: associating the outbound document in the blockchain network with the transfer operation according to the first user identifier.
- the method further includes: obtaining delivery information; generating a receipt confirmation document according to the outbound document and the delivery information; uploading the receipt confirmation document to the blockchain network.
- a method for processing goods transfer information including: acquiring storage information, the storage information including the identification of the goods to be stored, and the wallet address of the first user identification in the blockchain network and the wallet address identified by the second user in the blockchain network; perform a transfer operation on the non-homogeneous virtual resources corresponding to the goods to be put into storage according to the identity of the goods to be put into storage, and the transfer operation is An operation of transferring from the wallet address identified by the first user to the wallet address identified by the second user.
- the acquiring the storage-in information includes: acquiring goods allocation order information, the goods allocation order information including allocation goods information and first user information; identification of the goods; obtaining the wallet address of the first user identification according to the first user information; the method further includes: generating a warehousing confirmation document based on the goods transfer order information; confirming the warehousing through the server
- the documents are uploaded to the blockchain network.
- a cargo allocation information processing device including: a virtual resource association module for associating the non-homogeneous virtual resources corresponding to the goods in the warehouse with the first virtual resource in the blockchain network
- the wallet address identified by the user, the inbound goods include goods to be outbound;
- the outbound information acquisition module is used to obtain outbound information, and the outbound information includes the identification of the goods to be outbound and the block chain
- the wallet address of the second user identification in the network the resource transfer authorization module, used to authorize the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped according to the identification of the goods to be shipped, so that the first The second user terminal corresponding to the two user identifiers performs the transfer operation, wherein the transfer operation is an operation of transferring from the wallet address of the first user identifier to the wallet address of the second user identifier.
- the device further includes: a virtual resource mapping module, configured to map the inbound goods to the blockchain network by calling a non-homogeneous virtual resource protocol, and obtain the inbound The non-homogeneous virtual resources corresponding to the goods in the warehouse; the virtual resource association module is also used to associate the non-homogeneous virtual resources corresponding to the goods in the warehouse with the block by calling the non-homogeneous virtual resource protocol The wallet address identified by the first user in the chain network; the resource transfer authorization module is also used to correspond to the goods to be shipped according to the identification of the goods to be shipped by calling the non-homogeneous virtual resource protocol Authorize the transfer operation of non-homogeneous virtual resources.
- a virtual resource mapping module configured to map the inbound goods to the blockchain network by calling a non-homogeneous virtual resource protocol, and obtain the inbound The non-homogeneous virtual resources corresponding to the goods in the warehouse
- the virtual resource association module is also used to associate the non-homogeneous virtual resources corresponding to the goods in the warehouse with the
- the device further includes: a virtual resource query module, configured to query the non-homogeneous virtual resources associated with the wallet address identified by the first user by calling the non-homogeneous virtual resource protocol performing a query; and/or querying the non-homogeneous virtual resource associated with the wallet address identified by the second user by invoking the non-homogeneous virtual resource protocol.
- a virtual resource query module configured to query the non-homogeneous virtual resources associated with the wallet address identified by the first user by calling the non-homogeneous virtual resource protocol performing a query; and/or querying the non-homogeneous virtual resource associated with the wallet address identified by the second user by invoking the non-homogeneous virtual resource protocol.
- the outbound information acquisition module includes: a first order information acquisition module, configured to acquire goods allocation order information, the goods allocation order information including allocation goods information and second user information; the first The goods identification acquisition module is used to obtain the identification of the goods to be delivered according to the transferred goods information; the first wallet address acquisition module is used to obtain the wallet address of the second user identification according to the second user information;
- the device also includes: a first document generation module, configured to generate an outbound document according to the cargo allocation order information; a first document upload module, configured to upload the outbound document to the block through the server chain network.
- the device further includes: a document associating module, configured to associate an outbound document in the blockchain network with the transfer operation according to the first user identifier.
- the device further includes: a delivery information acquisition module, configured to acquire delivery information; a second receipt generation module, configured to generate a receipt confirmation according to the outbound receipt and the delivery information A document; a second document uploading module, configured to upload the receipt confirmation document to the blockchain network through the authentication organization node.
- a delivery information acquisition module configured to acquire delivery information
- a second receipt generation module configured to generate a receipt confirmation according to the outbound receipt and the delivery information A document
- a second document uploading module configured to upload the receipt confirmation document to the blockchain network through the authentication organization node.
- a cargo transfer information processing device including: a storage-in information acquisition module, used to acquire storage-in information, the storage-in information includes the identification of the goods to be stored in, the The wallet address identified by the first user and the wallet address identified by the second user in the block chain network; the resource transfer module is used to process the non-transferable items corresponding to the goods to be stored according to the identification of the goods to be stored.
- a transfer operation is performed on the homogenized virtual resource, and the transfer operation is an operation of transferring from the wallet address identified by the first user to the wallet address identified by the second user.
- the warehousing information acquisition module includes: a second order information acquisition module, configured to acquire goods allocation order information, the goods allocation order information including allocation goods information and first user information;
- the goods identification acquisition module is used to obtain the identification of the goods to be stored according to the transferred goods information;
- the second wallet address acquisition module is used to obtain the wallet address of the first user identification according to the first user information;
- the device also includes: a third document generation module, configured to generate a warehousing confirmation document based on the goods transfer order information; a third document uploading module, used to upload the warehousing confirmation document to the blockchain network.
- a device including: a memory, a processor, and executable instructions stored in the memory and executable in the processor, and the processor executes the executable instructions When implementing any of the above methods.
- a computer-readable storage medium on which computer-executable instructions are stored, and when the executable instructions are executed by a processor, any one of the above-mentioned methods is implemented.
- the method for processing goods allocation information obtains information including: The identification of the goods to be delivered and the delivery information of the wallet address identified by the second user in the blockchain network, according to the identification of the goods to be delivered, the first user identification of the non-homogeneous virtual resources corresponding to the goods to be delivered.
- the transfer operation of the wallet address of the second user ID to the wallet address of the second user ID is authorized, so that the second user terminal corresponding to the second user ID can perform the transfer operation, and complete the transfer of virtual resources corresponding to the actual goods assets through the blockchain network. Thereby, the authenticity and reliability of the goods allocation data can be ensured.
- Fig. 1 shows a schematic diagram of a system structure in an embodiment of the present disclosure.
- Fig. 2 shows a flowchart of a method for processing cargo allocation information in an embodiment of the present disclosure.
- Fig. 3 shows a flow chart of another method for processing cargo allocation information in an embodiment of the present disclosure.
- Fig. 4 shows a flow chart of another method for processing cargo allocation information in an embodiment of the present disclosure.
- Fig. 5 shows a schematic diagram of a warehouse-in confirmation document in an embodiment of the present disclosure.
- Fig. 6 is an interactive diagram showing cargo allocation information according to an exemplary embodiment.
- Fig. 7 shows a block diagram of a cargo allocation information processing device in an embodiment of the present disclosure.
- Fig. 8 shows a block diagram of another cargo allocation information processing device in an embodiment of the present disclosure.
- Fig. 9 shows a block diagram of yet another cargo allocation information processing device in an embodiment of the present disclosure.
- Fig. 10 shows a block diagram of another cargo allocation information processing device in an embodiment of the present disclosure.
- Fig. 11 shows a schematic structural diagram of an electronic device in an embodiment of the present disclosure.
- Example embodiments will now be described more fully with reference to the accompanying drawings.
- Example embodiments may, however, be embodied in many forms and should not be construed as limited to the examples set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art.
- the drawings are merely schematic illustrations of the present disclosure and are not necessarily drawn to scale.
- the same reference numerals in the drawings denote the same or similar parts, and thus repeated descriptions thereof will be omitted.
- first, second, etc. are used for descriptive purposes only, and should not be understood as indicating or implying relative importance or implicitly specifying the quantity of the indicated technical features. Thus, a feature defined as “first” and “second” may explicitly or implicitly include one or more of these features.
- “plurality” means at least two, such as two, three, etc., unless otherwise specifically defined.
- the symbol “/” generally indicates that the contextual objects are an “or” relationship.
- connection should be interpreted in a broad sense, for example, it can be electrically connected or can communicate with each other; it can be directly connected or indirectly connected through an intermediary.
- Blockchain is a new application model of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanism, and encryption algorithm.
- the consensus mechanism is a mathematical algorithm to establish trust and obtain rights and interests between different nodes in the blockchain system.
- Smart Contract A smart contract is a computer protocol designed to communicate, verify or enforce a contract in an informational manner. Smart contracts allow for trusted transactions without third parties, which are traceable and irreversible. The concept of smart contracts was first proposed by Nick Szabo in 1994.
- Electronic acceptance form it can replace the original paper acceptance form, which contains the basic information, commodity quantity and detailed information of specific warehousing or outbound acceptance forms.
- Pocket computer Personal Digital Assistant, PDA
- PDA Personal Digital Assistant
- the PDA mentioned in this disclosure is a logistics-specific PDA, which needs to have the ability to interact with the network where the platform is located, the ability to display electronic bills, and the like.
- the Android operating system is used.
- Zhang San has his own pair of public key and private key; the digital identity issuing authority can prove that the corresponding holder of this public key is Zhang San; through authority ( The certification body (Certificate Authority, CA) center endorses its digital identity (public and private keys), proving that the holder corresponding to the public key is the signer; through biometrics (fingerprint entered during registration) to ensure the use of the device's private The person who signed the key is the signer himself.
- CA Certificate Authority
- Non-Fungible Assets Non-Fungible Token, NFT: Non-homogeneity represents uniqueness. Taking Mystery Cat as an example, each cat is endowed with genes and is unique (a cat is an NFT). is not interchangeable. Homogeneous means that a certain part or quantity can be replaced by another equivalent part or quantity.
- the present disclosure provides a method for processing goods allocation information, which associates non-homogeneous virtual resources corresponding to inbound goods including goods to be outbound with the wallet address of the first user identification in the blockchain network, and obtains the wallet address including The identification of the goods to be delivered and the delivery information of the wallet address identified by the second user in the blockchain network, according to the identification of the goods to be delivered, the first user identification of the non-homogeneous virtual resources corresponding to the goods to be delivered Authorize the transfer operation of the wallet address transferred to the wallet address of the second user ID, so that the second user terminal corresponding to the second user ID can perform the transfer operation, and map each item in the transfer process to the blockchain account book, Circulation as a digital virtual resource, the transfer of virtual resources corresponding to the actual cargo assets is completed through the blockchain network, and the relevant parties obtain unique data through the blockchain, thereby ensuring the authenticity and reliability of the cargo transfer data and avoiding due to traditional The problem of inventory inconsistency caused by insufficient paper data interaction.
- Fig. 1 shows an exemplary system architecture 10 to which the method for processing cargo allocation information or the device for processing cargo allocation information of the present disclosure can be applied.
- the system architecture 10 may include terminal devices 1022 and 1024 , a network 104 , a business system server 106 , a CA server 108 and a blockchain network 110 .
- Terminal devices 1022 and 1024 may be various electronic devices with display screens and supporting input and output, including but not limited to smartphones, tablet computers, laptop computers, desktop computers, wearable devices, virtual reality devices, smart home and many more.
- the network 104 is used as a medium for providing communication links between the terminal device 102 and the servers 106 and 108 .
- Network 104 may include various connection types, such as wires, wireless communication links, or fiber optic cables, among others.
- the business system server 106 and the CA server 108 can be servers or server clusters that provide various business services and authentication services, respectively.
- the business system can include an order management system (Order Management System, OMS), a warehouse management system (Warehouse Management System) , WMS), etc., which can manage business data such as cargo information, consignor information, consignee information, carrier information, and receipt information.
- the blockchain network 110 can be a point-to-point (P2P, Peer To Peer) network composed of multiple nodes (any form of computing equipment in the access network, such as servers and user terminals).
- the nodes include hardware layers, middle layers , the operating system layer and the application layer, and a point-to-point application layer protocol running on the Transmission Control Protocol (TCP, Transmission Control Protocol) protocol is adopted between the nodes.
- TCP Transmission Control Protocol
- the user can use the terminal device 1022 or 1024 to interact with the business system server 106 or the CA server 108 through the network 104 to receive or send data to the blockchain network 110 .
- the consignor user uses the terminal device 1022 to perform virtual resource transfer authorization operations or generate outbound documents, etc., and then uploads from the business system server 106 to the blockchain network 110 through the network 104 .
- the consignee user uses the terminal device 1022 to query the delivery documents in the blockchain network 110 from the business system server 106 through the network 104 .
- the courier user can digitally sign and confirm the receipt on the terminal device 102 , and upload the signed receipt from the CA server 108 to the blockchain network 110 through the network 104 .
- terminal devices, networks, and servers in FIG. 1 are only illustrative. According to the implementation requirements, there can be any number of terminal devices, networks and servers.
- Fig. 2 is a flow chart showing a method for processing cargo allocation information according to an exemplary embodiment.
- the method shown in FIG. 2 may be applied to, for example, the terminal device 1022 of the above system, that is, the first user terminal corresponding to the first user identifier described below.
- a method 20 provided by an embodiment of the present disclosure may include the following steps.
- step S202 associate the non-homogeneous virtual resources corresponding to the inbound goods with the wallet address identified by the first user in the blockchain network, and the inbound goods include goods to be outbound.
- the goods in the warehouse can be mapped to the blockchain network, and the non-homogeneous virtual resources corresponding to the goods in the warehouse can be obtained.
- the first user may be the consignor (or the original cargo owner) of this cargo transfer
- the entity that maps the cargo to the non-homogeneous virtual resources on the blockchain network may be the cargo
- the wallet address is the storage location identification of the user's virtual resources in the blockchain network, which can be disclosed to all nodes in the blockchain. It is essentially a string of strings, which can be created when the user joins the blockchain network, and will be It is associated with the account of the business system where the user is located.
- the inbound goods can be mapped to the non-homogeneous virtual resources of the blockchain network by calling the non-homogeneous virtual resource protocol.
- the ECR721 protocol can be used. This protocol can also be invoked when associating non-homogeneous virtual resources with the wallet address identified by the first user, such as the method of associating 10 items with the wallet address 001 when the first user’s source warehouse puts in 10 items for:
- a wallet address can be created for the first user and associated with the first user's account in its business system (ie, the first user ID); for the second user (ie, the consignee, or The new owner) creates a wallet address (for example, 002) and associates it with the second user's account (ie, the second user ID) in its business system.
- the first user and the second user can be in the same or different business systems, and connect to the server in the blockchain network through corresponding terminals.
- step S204 the outbound information is obtained, and the outbound information includes the identification of the goods to be outbound and the wallet address of the second user identification in the blockchain network.
- the goods transfer order information including the transferred goods information and the second user information can be obtained, the identification of the goods to be shipped can be obtained according to the transferred goods information, and the wallet address of the second user identification can be obtained according to the second user information.
- the customer's goods transfer order information can be obtained through the EDI data exchange system, from which the identification of the goods to be shipped for virtual resource transfer operations and the wallet address of the second user identification of the consignee can be obtained.
- the relationship between the transferred goods information and the identification of the goods to be delivered, the second user information and the wallet address identified by the second user can be recorded and stored in the business system where the first user is located.
- the first user terminal corresponding to the first user identifier can generate a warehouse-out document according to the goods transfer order information, and upload the warehouse-out document to the blockchain network through the server.
- the source warehouse accepts instructions to transfer 5 items to the destination warehouse, generates an electronic outbound order, and writes the blockchain ledger deposit certificate by the storage node connected to the source warehouse.
- the server verifies whether the client is legal based on the account information and certificate information, and is responsible for invoking the blockchain node smart contract.
- the server When the server puts the outbound document on the chain, it can perform digital fingerprint calculation (HASH(sign(Doc.Pk))) on the outbound document to obtain the hash value of the content of the outbound document, and then upload the hash value to the chain, using To verify whether the corresponding content has been tampered with.
- digital fingerprint calculation HASH(sign(Doc.Pk))
- step S206 authorize the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped according to the identification of the goods to be shipped, so that the second user terminal corresponding to the second user ID can perform the transfer operation, wherein the transfer operation is The operation of transferring from the wallet address identified by the first user to the wallet address identified by the second user.
- the association relationship between the identification of the goods to be shipped and the non-homogeneous virtual resources corresponding to the goods to be shipped can also be recorded and stored in the business system where the first user is located.
- the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped can be authorized by calling the non-homogeneous virtual resource protocol according to the identification of the goods to be shipped. For example, after delivery is delivered by the delivery personnel, the consignee in the warehouse of the consignee enters the warehouse through its business system terminal (the second user terminal corresponding to the second user ID) and confirms that 3 of them have been put into the warehouse normally, and 2 of them have been rejected due to damage. Receive; when it can be stored in the warehouse, the authorization operation for completing the transfer of virtual resources by calling the ERC721 protocol at the terminal is as follows:
- address indexed_owner is the wallet address identified by the first user
- address indexed_approved is the wallet address identified by the second user
- uint256 indexed_tokenId is the identification of the non-homogeneous virtual resource corresponding to the 256-bit goods to be shipped.
- the authorization operation of virtual resource transfer of 3 goods can be carried out in three times; it can also be carried out in batches, and the authorization operation of virtual resource transfer of 3 goods can be completed at one time.
- FIG. 4 for a specific implementation manner of the transfer operation performed by the second user terminal corresponding to the second user identifier.
- the non-homogeneous virtual resource associated with the wallet address identified by the first user is queried by calling the non-homogeneous virtual resource protocol, and/or the second user is queried by calling the non-homogeneous virtual resource protocol.
- Query the non-homogeneous virtual resources associated with the identified wallet address For example, the original cargo owner and the new cargo owner complete the inventory inventory through the wallet terminal, and call the ERC721 protocol through their respective terminals to complete the non-homogeneous token and ownership query. The operation is as follows:
- address_owner is the wallet address to be queried.
- the outbound document in the blockchain network can be associated with the transfer operation according to the first user identification, for example, the link of the outbound document in the blockchain network can be associated with the first user's authorized transfer operation.
- the corresponding warehousing confirmation document can also be associated with the record of the second user's transfer operation, so that relevant parties such as the source warehouse, destination warehouse, and delivery personnel can synchronize the electronic signing data through the blockchain, and the electronic document data on the chain is authentic. And only.
- an alliance chain is established between all participants in the supply chain transfer, and at the same time, each item in the transfer process is
- the goods are mapped to the blockchain ledger and circulated as non-homogeneous virtual resources, and the transfer of virtual resources is completed through the blockchain protocol.
- the non-homogeneous virtual resources of the blockchain as the only resource corresponding to the goods on the blockchain, the relevant parties obtain unique data through the blockchain to ensure the uniqueness and reliability of assets, and avoid the lack of traditional data interaction, resulting in The problem of inconsistent inventory, eliminating the multi-party reconciliation process.
- Fig. 3 is a flow chart showing another method for processing cargo allocation information according to an exemplary embodiment.
- the method shown in FIG. 3 can be applied, for example, to the terminal device 1024 of the above system, that is, the terminal of the dispatcher verified by the CA server.
- a method 30 provided by an embodiment of the present disclosure may include the following steps.
- step S302 the delivery information is obtained.
- delivery personnel can obtain delivery tasks from the EDI system through a terminal (such as a PDA). Go to the destination warehouse of the designated consignee, complete the confirmation of the quantity of the goods with the consignee, and perform the delivery operation to obtain the actual delivery data. If 5 pieces of goods are actually successfully delivered, the delivery data will be the details of 5 pieces of goods; if the actual If 3 of the goods are successfully delivered, the delivery data will be the details of the 3 goods.
- a terminal such as a PDA
- step S304 a receipt confirmation document is generated according to the outbound document and the delivery information.
- an electronic receipt is formed according to the actual delivery data, and the electronic signature is completed on the PDA through the digital certificate of the delivery person to generate a receipt confirmation receipt.
- step S306 the verification organization node uploads the receipt confirmation document to the blockchain network.
- the receipt confirmation receipt can be written into the blockchain ledger by the delivery person's organization node (such as the CA node server).
- the specific implementation method of the CA node server writing the receipt confirmation document into the blockchain account book can refer to the description of the storage node server writing the electronic outbound receipt into the blockchain in step S204, and will not be repeated here.
- the blockchain-based electronic receipt process replaces the traditional paper receipt process operation process, ensuring the integration of information flow, physical flow, and document flow in the process of transferring ownership of goods.
- the responsibility of the recipient can be clarified through the return of the electronic signature, and the signature entity can be clarified by digital certificate signature, so as to realize the authenticity of the recipient and the credibility of the signature process.
- Fig. 4 is a flow chart showing another method for processing cargo allocation information according to an exemplary embodiment.
- the method shown in FIG. 4 may be applied to, for example, the terminal device 1022 of the above system, that is, the second user terminal corresponding to the second user identifier described below.
- a method 40 provided by an embodiment of the present disclosure may include the following steps.
- step S402 the warehousing information is obtained, and the warehousing information includes the identification of the goods to be stored, the wallet address of the first user identification in the blockchain network, and the wallet address of the second user identification in the blockchain network.
- the goods transfer order information including the transferred goods information and the first user information is obtained, the identification of the goods to be stored is obtained according to the transferred goods information, and the wallet address of the first user identification is obtained according to the first user information.
- the customer's goods transfer order information can be obtained through the EDI data exchange system, from which the identification of the goods to be put into storage for the virtual resource transfer operation and the wallet address of the first user identification of the sender can be obtained.
- the relationship between the transferred goods information and the identification of the goods to be stored, the first user information and the wallet address identified by the first user can be recorded and stored in the business system where the first user is located.
- the second user terminal corresponding to the second user identifier can generate a warehouse-in confirmation document based on the goods transfer order information, and then upload the warehouse-in confirmation document to the blockchain network through the server.
- the consignee of the destination warehouse (second user) completes the warehousing confirmation operation on the terminal (PDA/PC (Personal Computer, personal computer)), Complete the signature of the electronic warehousing confirmation form, and then perform the on-chain deposit operation through the server of the business system where the second user is located.
- PDA/PC Personal Computer, personal computer
- FIG. 5 shows a schematic diagram of a warehousing confirmation document.
- the warehousing confirmation document (warehousing acceptance form) can be in pdf format, and can include the supplier, the inspector, the purchase order number, the owner, the carrier The consignee’s signature can be verified.
- step S404 perform a transfer operation on the non-homogeneous virtual resources corresponding to the goods to be put into storage according to the identifier of the goods to be put into storage, and the transfer operation is an operation of transferring from the wallet address identified by the first user to the wallet address identified by the second user .
- the non-homogeneous virtual resource corresponding to the goods to be stored is transferred by calling the non-homogeneous virtual resource protocol.
- the consignee of the destination warehouse confirms that 3 pieces are normally put into the warehouse and 2 pieces are rejected due to damage through the operation details of the terminal system in advance, and the virtual resources of the 3 pieces of goods are completed by calling the ERC721 protocol Transfer operation:
- the goods are mapped to virtual resources through the blockchain account technology to confirm the rights on the chain.
- the transfer of the virtual resources is completed in the blockchain account through the smart contract.
- Relevant parties such as the source warehouse, the destination warehouse, and the delivery staff can synchronize the electronic signing data through the blockchain, and complete the inventory and audit process of the goods through the blockchain account technology to ensure that the physical assets correspond to the virtual resources of the blockchain.
- the electronic document data is authentic and unique to ensure the authenticity, integrity and reliability of the data related to the goods.
- Fig. 6 is an interactive diagram showing cargo allocation information according to an exemplary embodiment. As shown in Figure 6, the information interaction is as follows:
- the source warehouse (consignor) 6002 creates a wallet address 001, and associates it with the account in its blockchain network 6010.
- the destination warehouse (consignee) 6006 creates a wallet address 002, and associates it with the account in its blockchain network 6010.
- the source warehouse 6002 puts in 10 pieces of goods.
- the source warehouse 6002 associates the tokens corresponding to the 10 incoming goods with its wallet address 001.
- the source warehouse 6002 obtains the goods allocation data from the EDI 6008.
- the source warehouse 6002 sends 5 pieces of goods out of the warehouse according to the goods allocation data, and generates an electronic delivery order.
- the source warehouse 6002 stores the electronic delivery slip on the chain.
- the delivery personnel 6004 obtains the delivery data.
- the delivery personnel 6004 digitally signs the receipt according to the actual delivery data, and exchanges the data of the electronic receipt through EDI 6008.
- the delivery personnel 6004 stores the electronic receipt on the chain.
- the destination warehouse 6006 details the storage (3 pieces of goods are put into the warehouse, and 2 pieces of goods are returned).
- the source warehouse 6002 authorizes virtual resource transfer of 5 outbound goods.
- the destination warehouse 6006 confirms the receipt of 3 pieces of goods into the warehouse, and generates an electronic warehouse-in receipt.
- the destination warehouse 6006 performs virtual resource transfer of 3 incoming goods.
- the destination warehouse 6006 conducts data exchange of the electronic receipt receipt through EDI 6008.
- the destination warehouse 6006 stores the electronic receipt receipt on the chain.
- the destination warehouse 6006 returns the two returned items to the source warehouse 6002.
- Fig. 7 is a block diagram of a cargo allocation information processing device according to an exemplary embodiment.
- the apparatus shown in FIG. 7 may be applied to, for example, the terminal device 1022 of the above system, that is, the first user terminal corresponding to the first user identifier described below.
- an apparatus 70 may include a virtual resource association module 702 , an outbound information acquisition module 704 and a resource transfer authorization module 706 .
- the virtual resource associating module 702 can be used to associate the non-homogeneous virtual resources corresponding to the inbound goods with the wallet address identified by the first user in the blockchain network, and the inbound goods include the goods to be outbound.
- the outbound information acquisition module 704 can be used to acquire outbound information, and the outbound information includes the identifier of the goods to be outbound and the wallet address identified by the second user in the blockchain network.
- the resource transfer authorization module 706 can be used to authorize the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped according to the identification of the goods to be shipped, so that the second user terminal corresponding to the second user ID can perform the transfer operation, wherein the transfer The operation is an operation of transferring from the wallet address identified by the first user to the wallet address identified by the second user.
- Fig. 8 is a block diagram of another cargo allocation information processing device according to an exemplary embodiment.
- the apparatus shown in FIG. 8 may be applied to, for example, the terminal device 1022 of the above system, that is, the first user terminal corresponding to the first user identifier described below.
- the device 80 may include a virtual resource mapping module 801, a virtual resource association module 802, an outbound information acquisition module 804, a first document generation module 8052, a first document uplink module 8054, a resource transfer The authorization module 806, the document association module 807, the virtual resource query module 808, the delivery information acquisition module 8012, the second document generation module 8014, and the second document upload module 8016.
- the outbound information acquisition module 804 can include the first order information acquisition module.
- the virtual resource mapping module 801 can be used to map the incoming goods to the blockchain network by calling the non-homogeneous virtual resource protocol, and obtain the non-homogeneous virtual resources corresponding to the incoming goods.
- the virtual resource associating module 802 can be used to associate the non-homogeneous virtual resources corresponding to the inbound goods with the wallet address identified by the first user in the blockchain network, and the inbound goods include goods to be outbound.
- the virtual resource associating module 802 can also be used to associate the non-homogeneous virtual resource corresponding to the inbound goods with the wallet address identified by the first user in the blockchain network by calling the non-homogeneous virtual resource protocol.
- the outbound information acquisition module 804 can be used to acquire outbound information, and the outbound information includes the identifier of the goods to be outbound and the wallet address identified by the second user in the blockchain network.
- the first order information obtaining module 8042 may be used to obtain goods transfer order information, and the goods transfer order information includes transfer goods information and second user information.
- the first cargo identification acquisition module 8044 can be used to obtain the identification of the goods to be delivered from the warehouse according to the allocated cargo information.
- the first wallet address obtaining module 8046 may be configured to obtain the wallet address identified by the second user according to the second user information.
- the first document generation module 8052 can be used to generate a delivery document according to the goods transfer order information.
- the first document uploading module 8054 can be used to upload the outbound documents to the blockchain network through the server.
- the resource transfer authorization module 806 can be used to authorize the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped according to the identification of the goods to be shipped, so that the second user terminal corresponding to the second user ID can perform the transfer operation, wherein the transfer The operation is an operation of transferring from the wallet address identified by the first user to the wallet address identified by the second user.
- the resource transfer authorization module 806 can also be used to authorize the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped by calling the non-homogeneous virtual resource protocol according to the identification of the goods to be shipped.
- the document associating module 807 can be used for associating the outbound document in the blockchain network with the transfer operation according to the first user identification.
- the virtual resource query module 808 can be used to query the non-homogeneous virtual resources associated with the wallet address identified by the first user by calling the non-homogeneous virtual resource protocol; and/or query the second virtual resource by calling the non-homogeneous virtual resource protocol Query the non-homogeneous virtual resources associated with the wallet address identified by the user.
- the delivery information acquisition module 8012 can be used to acquire delivery information.
- the second document generation module 8014 can be used to generate a receipt confirmation document according to the delivery document and delivery information.
- the second document uploading module 8016 can be used to upload the receipt confirmation document to the blockchain network through the authentication organization node.
- Fig. 9 is a block diagram of yet another device for processing information on cargo allotment according to an exemplary embodiment.
- the apparatus shown in FIG. 9 may be applied to, for example, the terminal device 1022 of the above system, that is, the second user terminal corresponding to the second user identifier described below.
- an apparatus 90 may include a storage information acquisition module 902 and a resource transfer module 904 .
- the warehousing information acquisition module 902 can be used to acquire warehousing information, and the warehousing information includes the identification of the goods to be stored, the wallet address of the first user identification in the blockchain network, and the wallet address of the second user identification in the blockchain network. address.
- the resource transfer module 904 can be used to perform a transfer operation on the non-homogeneous virtual resources corresponding to the goods to be put into storage according to the identification of the goods to be put into storage, and the transfer operation is to transfer from the wallet address identified by the first user to the wallet address identified by the second user operate.
- Fig. 10 is a block diagram of yet another device for processing information about goods allotment according to an exemplary embodiment.
- the apparatus shown in FIG. 10 can be applied to, for example, the terminal device 1022 of the above system, that is, the second user terminal corresponding to the second user identifier described below.
- the device 100 may include a warehouse-in information acquisition module 1002, a resource transfer module 1004, a third document generation module 1006, and a third document chain-up module 1008.
- the warehouse-in information acquisition module 1002 may include the first The second order information acquisition module 10022, the second goods identification acquisition module 10024 and the second wallet address acquisition module 10026.
- the warehousing information acquisition module 1002 can be used to obtain warehousing information, the warehousing information includes the identification of the goods to be stored, the wallet address of the first user identification in the blockchain network, and the wallet address of the second user identification in the blockchain network address.
- the second order information acquisition module 10022 can be used to acquire goods allocation order information, and the goods allocation order information includes allocation goods information and first user information.
- the second cargo identification acquisition module 10024 can be used to obtain the identification of the goods to be put into storage according to the allocated cargo information.
- the second wallet address obtaining module 10026 may be used to obtain the wallet address identified by the first user according to the first user information.
- the resource transfer module 1004 can be used to perform a transfer operation on the non-homogeneous virtual resources corresponding to the goods to be put into storage according to the identification of the goods to be put into storage, and the transfer operation is to transfer from the wallet address identified by the first user to the wallet address identified by the second user operate.
- the third document generation module 1006 can be used to generate a warehouse-in confirmation document based on the goods transfer order information.
- the third document uploading module 1008 can be used to upload the storage confirmation document to the blockchain network through the server.
- Fig. 11 shows a schematic structural diagram of an electronic device in an embodiment of the present disclosure. It should be noted that the device shown in FIG. 11 is only an example of a computer system, which should not limit the functions and scope of use of the embodiments of the present disclosure.
- a device 1100 includes a central processing unit (CPU) 1101 that can operate according to a program stored in a read-only memory (ROM) 1102 or a program loaded from a storage section 1108 into a random access memory (RAM) 1103 Various appropriate actions and processes are performed.
- ROM read-only memory
- RAM random access memory
- various programs and data necessary for the operation of the device 1100 are also stored.
- the CPU 1101, ROM 1102, and RAM 1103 are connected to each other via a bus 1104.
- An input/output (I/O) interface 1105 is also connected to the bus 1104 .
- the following components are connected to the I/O interface 1105: an input section 1106 including a keyboard, a mouse, etc.; an output section 1107 including a cathode ray tube (CRT), a liquid crystal display (LCD), etc., and a speaker; a storage section 1108 including a hard disk, etc. and a communication section 1109 including a network interface card such as a LAN card, a modem, or the like.
- the communication section 1109 performs communication processing via a network such as the Internet.
- a drive 1110 is also connected to the I/O interface 1105 as needed.
- a removable medium 1111 such as a magnetic disk, optical disk, magneto-optical disk, semiconductor memory, etc. is mounted on the drive 1110 as necessary so that a computer program read therefrom is installed into the storage section 1108 as necessary.
- embodiments of the present disclosure include a computer program product, which includes a computer program carried on a computer-readable medium, where the computer program includes program codes for executing the methods shown in the flowcharts.
- the computer program may be downloaded and installed from a network via communication portion 1109, and/or installed from removable media 1111.
- CPU central processing unit
- the computer-readable medium shown in the present disclosure may be a computer-readable signal medium or a computer-readable storage medium or any combination of the above two.
- a computer readable storage medium may be, for example, but not limited to, an electrical, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination thereof. More specific examples of computer-readable storage media may include, but are not limited to, electrical connections with one or more wires, portable computer diskettes, hard disks, random access memory (RAM), read-only memory (ROM), erasable Programmable read-only memory (EPROM or flash memory), optical fiber, portable compact disk read-only memory (CD-ROM), optical storage device, magnetic storage device, or any suitable combination of the above.
- a computer-readable storage medium may be any tangible medium that contains or stores a program that can be used by or in conjunction with an instruction execution system, apparatus, or device.
- a computer-readable signal medium may include a data signal propagated in baseband or as part of a carrier wave, carrying computer-readable program code therein. Such propagated data signals may take many forms, including but not limited to electromagnetic signals, optical signals, or any suitable combination of the foregoing.
- a computer-readable signal medium may also be any computer-readable medium other than a computer-readable storage medium, which can send, propagate, or transmit a program for use by or in conjunction with an instruction execution system, apparatus, or device.
- Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.
- each block in a flowchart or block diagram may represent a module, program segment, or portion of code that includes one or more logical functions for implementing specified executable instructions.
- the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or they may sometimes be executed in the reverse order, depending upon the functionality involved.
- each block in the block diagrams or flowchart illustrations, and combinations of blocks in the block diagrams or flowchart illustrations can be implemented by a dedicated hardware-based system that performs the specified function or operation, or can be implemented by a A combination of dedicated hardware and computer instructions.
- the modules involved in the embodiments described in the present disclosure may be implemented by software or by hardware.
- the described modules can also be set in the processor, for example, it can be described as: a processor includes a virtual resource association module, a library information acquisition module and a resource transfer authorization module.
- a processor includes a virtual resource association module, a library information acquisition module and a resource transfer authorization module.
- the names of these modules do not constitute a limitation of the module itself under certain circumstances.
- the virtual resource association module can also be described as "associate the non-homogeneous virtual resources corresponding to the goods into the blockchain network module of the wallet address".
- the present disclosure also provides a computer-readable medium, which may be included in the device described in the above embodiments, or may exist independently without being assembled into the device.
- the above-mentioned computer-readable medium carries one or more programs, and when the above-mentioned one or more programs are executed by the device, the device includes:
- the goods in the warehouse include the goods to be shipped out; obtain the warehouse-out information, and the warehouse-out information includes the goods to be shipped out ID and the wallet address of the second user ID in the blockchain network; authorize the transfer operation of the non-homogeneous virtual resources corresponding to the goods to be shipped according to the ID of the goods to be shipped, so that the second user ID corresponding to the
- the two user terminals perform a transfer operation, wherein the transfer operation is an operation of transferring from the wallet address identified by the first user to the wallet address identified by the second user.
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Abstract
Description
Claims (11)
- 一种货物调拨信息处理方法,其中,包括:将入库货物对应的非同质化虚拟资源关联到区块链网络中的第一用户标识的钱包地址,所述入库货物包括待出库货物;获取出库信息,所述出库信息包括所述待出库货物的标识和所述区块链网络中的第二用户标识的钱包地址;根据所述待出库货物的标识对所述待出库货物对应的非同质化虚拟资源的转移操作进行授权,以便第二用户标识对应的第二用户终端进行所述转移操作,其中,所述转移操作为从所述第一用户标识的钱包地址转移至所述第二用户标识的钱包地址的操作。
- 根据权利要求1所述的方法,其中,还包括:通过调用非同质化虚拟资源协议将所述入库货物映射到所述区块链网络上,获得所述入库货物对应的非同质化虚拟资源;所述将入库货物对应的非同质化虚拟资源关联到所述区块链网络中的第一用户标识的钱包地址包括:通过调用所述非同质化虚拟资源协议将入库货物对应的非同质化虚拟资源关联到所述区块链网络中的第一用户标识的钱包地址;所述根据所述待出库货物的标识对所述待出库货物对应的非同质化虚拟资源的转移操作进行授权包括:通过调用所述非同质化虚拟资源协议根据所述待出库货物的标识对所述待出库货物对应的非同质化虚拟资源的转移操作进行授权。
- 根据权利要求2所述的方法,其中,还包括:通过调用所述非同质化虚拟资源协议对所述第一用户标识的钱包地址关联的非同质化虚拟资源进行查询;和/或通过调用所述非同质化虚拟资源协议对所述第二用户标识的钱包地址关联的非同质化虚拟资源进行查询。
- 根据权利要求1所述的方法,其中,所述获取出库信息包括:获取货物调拨订单信息,所述货物调拨订单信息包括调拨货物信息和第二用户信息;根据所述调拨货物信息获得所述待出库货物的标识;根据所述第二用户信息获得所述第二用户标识的钱包地址;所述方法还包括:根据所述货物调拨订单信息生成出库单据;通过服务端将所述出库单据上传至所述区块链网络。
- 根据权利要求4所述的方法,其中,还包括:根据所述第一用户标识将所述区块链网络中的出库单据关联到所述转移操作。
- 根据权利要求4所述的方法,其中,还包括:获取妥投信息;根据所述出库单据和所述妥投信息生成签收确认单据;通过认证组织节点将所述签收确认单据上传至所述区块链网络。
- 一种货物调拨信息处理方法,其中,包括:获取入库信息,所述入库信息包括待入库货物的标识、区块链网络中的第一用户标识的钱包地址和所述区块链网络中的第二用户标识的钱包地址;根据所述待入库货物的标识对所述待入库货物对应的非同质化虚拟资源进行转移操作,所述转移操作为从所述第一用户标识的钱包地址转移至所述第二用户标识的钱包地址的操作。
- 根据权利要求7所述的方法,其中,所述获取入库信息包括:获取货物调拨订单信息,所述货物调拨订单信息包括调拨货物信息和第一用户信息;根据所述调拨货物信息获得所述待入库货物的标识;根据所述第一用户信息获得所述第一用户标识的钱包地址;所述方法还包括:基于所述货物调拨订单信息生成入库确认单据;通过服务端将所述入库确认单据上传至所述区块链网络。
- 一种货物调拨信息处理装置,其中,包括:虚拟资源关联模块,用于将入库货物对应的非同质化虚拟资源关联到所述区块链网络中的第一用户标识的钱包地址,所述入库货物包括待出库货物;出库信息获取模块,用于获取出库信息,所述出库信息包括所述待出库货物的标识和所述区块链网络中的第二用户标识的钱包地址;资源转移授权模块,用于根据所述待出库货物的标识对所述待出库货物对应的非同质化虚拟资源的转移操作进行授权,以便第二用户标识对应的第二用户终端进行所述转移操作,其中,所述转移操作为从所述第一用户标识的钱包地址转移至所述第二用户标识的钱包地址的操作。
- 一种设备,包括:存储器、处理器及存储在所述存储器中并可在所述处理器中运行的可执行指令,其中,所述处理器执行所述可执行指令时实现如权利要求1-8任一项所述的方法。
- 一种计算机可读存储介质,其上存储有计算机可执行指令,其中,所述可执行指令被处理器执行时实现如权利要求1-8任一项所述的方法。
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