CN116308796A - Real-time order processing method, equipment and medium for supply chain platform - Google Patents

Abstract

The application provides a real-time order processing method, equipment and medium for a supply chain platform. Wherein, each piece of package identification information in the order package identification set has a preset association relation. And respectively distributing the package identification information in the order package identification set to corresponding supply order data according to the supplier supply information matched with the intention order data. The supply order data at least comprises materials supplied by suppliers and order transaction data. And under the condition that a real-time order inquiry command is received, displaying each supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal. Thereby improving order delivery efficiency of the supply chain platform and improving user experience.

Description

Real-time order processing method, equipment and medium for supply chain platform

Technical Field

The present disclosure relates to the field of computer technologies, and in particular, to a method, an apparatus, and a medium for real-time order processing of a supply chain platform.

Background

With the advent of the internet age, modern enterprises have taken supply chain management as the primary management mode. Supply chain management refers to the process of optimizing the operation of the supply chain and running through the whole process from purchasing to customer satisfaction on the premise of lowest cost. As an integrated business process, the main task of supply chain management is to reasonably configure internal and external resources of an enterprise to meet the needs of consumers.

Currently, as market competition becomes more and more aggressive, the order lead time requirements of enterprises become more and more stringent. Current supply chain platforms have difficulty supporting high quality order delivery requirements due to the presence of disjoints between the various nodes of their supply chain. There is an inherent asymmetry of information between suppliers and manufacturers that further affects the operating efficiency of the supply chain, making the user experience in the supply chain poor.

Disclosure of Invention

The embodiment of the application provides a real-time order processing method, equipment and medium for a supply chain platform, which are used for solving the problems of low efficiency, long order delivery period and poor user experience of the current supply chain platform.

In one aspect, embodiments of the present application provide a real-time order processing method for a supply chain platform, the method comprising:

acquiring intention order data from a user terminal;

generating a corresponding order packaging identification set based on the intention order data; wherein, each piece of packaging identification information in the order packaging identification set has a preset association relation;

distributing the package identification information in the order package identification set to corresponding supply order data according to supplier supply information matched with the intention order data; wherein the supply order data at least comprises supplier supply materials and order transaction data;

and under the condition that a real-time order inquiry command is received, displaying each piece of supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

In one implementation manner of the present application, based on the intent order data, a corresponding order package identifier set is generated, which specifically includes:

determining order sales flow information corresponding to the intention order data and a plurality of order sales nodes corresponding to the order sales flow information according to the intention order data and the corresponding selected suppliers;

determining the packaging identification information of the order sales nodes corresponding to the intention order data according to the quantity of the order sales nodes and the order flow direction sequence; the association relation between the package identification information is determined based on the number of the order sales nodes and the order flow direction sequence; each piece of package identification information comprises an extensible package identification;

according to a preset classification category, packaging the packaging identification information into at least one order packaging identification set; wherein the classification category is determined based on the order number of the user annotation.

In one implementation of the present application, before each of the package identification information in the order package identification set is respectively assigned to corresponding supply order data according to supplier supply information matched with the intent order data, the method further includes:

determining provider publishing information in preset time according to the order issuing time of the intention order data and the order purchasing object data;

determining an order transaction risk value of the supply information of each undetermined supplier in the release information of each supplier according to a preset transaction model;

and screening the pending supplier supply information with the order transaction risk value smaller than a preset threshold value, and determining corresponding order supply time to take the pending supplier supply information with the minimum order supply time as supplier supply information matched with the intention order data.

In one implementation manner of the present application, according to supplier supply information matched with the intent order data, each piece of package identification information in the order package identification set is respectively allocated to corresponding supply order data, and specifically includes:

determining corresponding supply order data of the supplier supply information;

establishing a corresponding associated knowledge graph according to the intention order data and the supply order data; wherein the associated knowledge graph corresponds to an association relationship between the intent order data and the supply order data;

generating identification application information through an identification analysis management module based on the association knowledge graph and the order packaging identification set so as to send the identification application information to a secondary identification analysis node and acquire a corresponding supply order identification code of the supply order data from the secondary identification analysis node; the supply order identification code at least comprises a bar code and a two-dimensional code.

In one implementation manner of the present application, based on the association knowledge graph and the order packaging identifier set, generating identifier application information through an identifier analysis management module specifically includes:

according to the association knowledge graph, determining the association relation between the single intention order in the intention order data and the single supply order in the supply order data;

determining binding information of each single supply order according to the association relation between the single intention order in the intention order data and the single supply order in the supply order data and the package identification information of each single intention order in the order package identification set; the binding information is used for specifying the relation between the package identification information of the single intention order and the single supply order; the binding information at least comprises a time relationship, a space relationship and a context relationship;

and generating the identification application information according to the corresponding binding information of the supply order data by the identification analysis management module so as to acquire a supply order identification code with a preset binding relationship with the package identification information of the single intention order.

In one implementation manner of the present application, acquiring the intention order data from the user terminal specifically includes:

determining whether the user terminal has a corresponding preset purchase contract or not based on order application information of the user terminal;

if yes, generating intention order data according to the preset purchase contract;

otherwise, an order intention confirming interface is sent to the user terminal so as to determine the intention order data based on the operation of a user on the user terminal; the intent order data includes at least intent order content, intent suppliers.

In one implementation of the present application, the method further includes:

acquiring the intention order data of multiple batches from the user terminal;

and respectively determining corresponding order packaging identification sets according to the intention order data of the multiple batches, and combining all the order packaging identification sets to determine the supplier supply information corresponding to the intention order data of the multiple batches.

In one implementation of the present application, the method further includes:

the server is connected with the user terminal and the supplier terminal through a preset ERP interface of the enterprise resource planning system, a WMS interface of the warehouse management system and a TMS interface of the transportation management system so as to display the supply order data stored in each docking system based on the encapsulation identification information.

In another aspect, embodiments of the present application further provide a real-time order processing apparatus for a supply chain platform, the apparatus comprising:

at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to:

acquiring intention order data from a user terminal;

generating a corresponding order packaging identification set based on the intention order data; wherein, each piece of packaging identification information in the order packaging identification set has a preset association relation;

distributing the package identification information in the order package identification set to corresponding supply order data according to supplier supply information matched with the intention order data; wherein the supply order data at least comprises supplier supply materials and order transaction data;

and under the condition that a real-time order inquiry command is received, displaying each piece of supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

In yet another aspect, embodiments of the present application further provide a real-time order processing non-volatile computer storage medium for a supply chain platform, storing computer-executable instructions configured to:

acquiring intention order data from a user terminal;

generating a corresponding order packaging identification set based on the intention order data; wherein, each piece of packaging identification information in the order packaging identification set has a preset association relation;

distributing the package identification information in the order package identification set to corresponding supply order data according to supplier supply information matched with the intention order data; wherein the supply order data at least comprises supplier supply materials and order transaction data;

and under the condition that a real-time order inquiry command is received, displaying each piece of supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

Through the technical scheme, the intention order data and the matched supplier supply information are utilized to establish the corresponding order packaging identification set and distribute the identification information to the supply order data, so that a real-time order processing method relying on an identification analysis system is provided for suppliers and manufacturers, the information in a supply chain is not symmetrical between the suppliers and manufacturers or between the customers, the transparency of the supply chain data is ensured, and the operation efficiency of the supply chain is improved. And the order delivery period can be effectively reduced, and the user experience in the supply chain is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

FIG. 1 is a flow chart of a real-time order processing method for a supply chain platform according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a real-time order processing apparatus for a supply chain platform according to an embodiment of the present application.

Detailed Description

For the purposes, technical solutions and advantages of the present application, the technical solutions of the present application will be clearly and completely described below with reference to specific embodiments of the present application and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

When the market competition is strong, the order delivery period is shorter and shorter, the demand on delivery is higher and higher, and a perfect management mechanism is needed when the inventory is in the game of production guarantee and cost. Meanwhile, enterprises are converted into a new management mechanism based on vertical thinking, external related enterprise resources are transversely integrated to form a strategy alliance with complementary advantages, benefit communities are formed to participate in market competition, service quality is improved, cost is reduced, and customer demands are responded quickly.

The identification analysis system in the industrial Internet field is an important component of the industrial Internet network system, provides basic resources and information interconnection and intercommunication capability for cross-field, cross-industry and cross-enterprise, and is a key infrastructure for realizing interconnection and intercommunication of the whole industrial Internet network. The industrial Internet identification analysis system assigns unique identity codes for the entities and the virtual objects through identification codes (bar codes, two-dimensional codes, radio frequency identification tags and the like), and the identity codes can record and trace the full life cycle information of the virtual or entity objects.

As enterprise order lead time requirements become more stringent, current supply chain platforms have difficulty supporting high quality order lead requirements due to the presence of disjoints between the various nodes of their supply chain. There is an inherent asymmetry of information between suppliers and manufacturers that further affects the operating efficiency of the supply chain, making the user experience in the supply chain poor.

Based on the above, the embodiment of the application provides a real-time order processing method, equipment and medium for a supply chain platform, which are used for solving the problems of low efficiency, long order delivery cycle and poor user experience of the current supply chain platform.

Various embodiments of the present application are described in detail below with reference to the accompanying drawings.

The embodiment of the application provides a real-time order processing method for a supply chain platform, as shown in fig. 1, the method may include steps S101-S104:

s101, the server acquires intention order data from the user terminal.

The user terminal may be a terminal device of a customer using the supply chain platform, through which the product of the provider is purchased or reserved, as a sales flow use object of the supply chain platform. The user terminal may be a device such as a mobile phone, a tablet computer, a notebook computer, etc. of the client, which is not particularly limited in this application.

It should be noted that, the server is merely an exemplary implementation of the real-time order processing method for the supply chain platform, and the implementation is not limited to the server, and the application is not limited thereto.

In this embodiment of the present application, the server obtains the intention order data from the user terminal, which specifically includes:

firstly, the server determines whether a corresponding preset purchase contract exists in the user terminal or not based on order application information of the user terminal.

And under the condition that the user terminal is determined to have a corresponding preset purchase contract, generating intention order data according to the preset purchase contract.

Otherwise, an order intention confirming interface is sent to the user terminal to determine intention order data based on the operation of the user on the user terminal. The intent order data includes at least intent order content, intent suppliers.

In other words, the present application can determine whether the supply chain platform or the database connected thereto stores a preset purchase contract corresponding to the user terminal. The preset purchase contract corresponding to the user terminal refers to whether the corresponding customer of the user terminal has the signed sales purchase contract. And executing the generation intention order data according to the signed contract to form a sales order under the condition of existence. If the contract does not exist, an optional order intention confirming interface can be provided for the user terminal, and the user can select the order intention confirming interface through the interface to generate corresponding intention order data of the user.

The contract can be established by a contract center module of the supply chain platform, wherein the contract center module comprises a purchasing contract and a sales contract management, and provides drafting functions of contract term configuration, contract intelligent identification, contract archiving, sales and purchasing contracts.

Furthermore, the same user terminal in the present application may have several batches of intention order data, and then the present application performs vendor matching by the following implementation, specifically as follows:

the server obtains the intent order data of multiple batches from the user terminal. And respectively determining corresponding order packaging identification sets according to the intention order data of the multiple batches, and combining the order packaging identification sets to determine supplier supply information corresponding to the intention order data of the multiple batches.

That is, after obtaining the intent order data of multiple batches, the server can generate an order package identifier set corresponding to the intent order data of multiple batches, that is, the intent order data of each batch has an order package identifier set. The server can combine the order packaging identification sets and match the supplier supply information corresponding to the combined order packaging identification sets.

For example, the user terminal has the intention order data of the a, b, and c batches, the three batches have the order package identification sets A, B, C respectively, and the server merges the orders of the same type (such as order product type and order use object type) in each set, and then matches the supplier supply information. If the order m has a product x, the order n has a product y, the product x and the product y are the same type, the server combines the products, and the combined supplier supply information is matched.

In addition, the embodiment of the application further comprises a purchase and sales module, a delivery and settlement module, a storage module and an activity-based visual approval flow module, wherein the sales and purchase module comprises a purchase order and sales order management, and specifically comprises automatic generation of the purchase order according to a purchase contract, generation of the sales order according to the purchase order and sales order rate configuration.

The delivery center module comprises a delivery center, a harvesting center and a delivery center, and particularly comprises an invoice and delivery confirmation function, a delivery import and harvesting warehouse-in check function, a basic template is provided to realize the rapid import of materials, the delivery center mainly comprises a delivery application and delivery list management, a customer selects the quantity of goods selected by a specific order to initiate the delivery application,

the settlement center module comprises invoice management and checking management functions, and specifically comprises invoice custom template creation and platform invoice collection management; the account checking management mainly comprises the management of a bill and provides printing and downloading functions.

The warehouse center module comprises warehouse basic information management, warehouse management, ex-warehouse management, inventory report management, account checking management and warehouse area monitoring management functions. The warehouse center is combined with the identification analysis, and the material detailed information is obtained by scanning the unique code of the article, and the material storage position information is distributed and recorded accordingly.

The process management comprises model management, process deployment, process management, process tracking and my transaction functions, and the my transaction mainly comprises pending transactions, proxy transactions, issued transactions and transacted transactions.

S102, the server generates a corresponding order packaging identification set based on the intention order data.

Wherein, each piece of package identification information in the order package identification set has a preset association relation.

The packaging identification information is generated by an identification analysis management module of the supply chain platform, the identification analysis management module comprises identification code management and identification code traceability management, unique identification codes are assigned to orders and materials through the identification codes, and a user can acquire related information through the identification codes to realize information sharing and full life cycle management.

In the embodiment of the application, based on the intention order data, a corresponding order packaging identification set is generated, which specifically includes:

and the server determines the order sales flow information corresponding to the intention order data and a plurality of order sales nodes corresponding to the order sales flow information according to the intention order data and the corresponding selected suppliers. And determining the packaging identification information of the order sales nodes corresponding to the intention order data according to the number of the order sales nodes and the order flow direction sequence. The association between the package identification information is determined based on the number of order sales nodes and order flow order. Each package identification information includes an extensible package identification. And packaging the packaging identification information into at least one order packaging identification set according to the preset classification. Wherein the classification category is determined based on the order number of the user annotation.

In other words, the server may obtain the selected suppliers from the intent order data. For example, the intent order data is sales contracted, which can be used to obtain the selected suppliers; and if the client determines the order by himself, the server can match the corresponding selected suppliers by means of data analysis, load prediction, transaction simulation, algorithm model and the like according to the generated order. The server may then determine order sales flow information corresponding to the intent order data, such as payment order making, payment, receipt, collection, shipping, pick-up, delivery, receipt, billing, and the like. And a plurality of order sales nodes, such as the payment list making node, the payment node and the like, are corresponding to each order sales flow information. The server may generate package identification information of each order sales node according to the number of order sales nodes and order flow direction sequence, for example, the package identification information of the first order sales node includes an identifier 10001, 10001 represents the first order sales node, and the package identification information of the second order sales node includes an identifier 20001, which can be extended. For example, an order sales node contains multiple objects such as Material 1, material 2 … …, the identifier 10001 can be extended to 10002, 10003 … … where order flow order corresponds to the order in which the order sales nodes business in the supply chain proceeds.

And then, the server can package the package identification information into order package identification sets according to preset classification types, and when the package is packaged, the package can be performed in a mode that the preset classification types are one type, for example, the order is a pen or a book, the order numbers of the two orders are different, and the server packages the package identification information of the two orders into the two order package identification sets respectively.

Through the scheme, the intention order data can be corresponding to the order packaging identification sets, and different order packaging identification sets are generated for orders of different classification categories, so that each node of the supply chain is provided with the identification code for identifying analysis, the flow management of the supply chain is facilitated, the unique positioning and information inquiry of the orders or the articles are facilitated, and the information sharing and life cycle monitoring are realized. And the order delivery efficiency and delivery safety of the supply chain platform are improved, and the user experience is improved.

S103, the server distributes the package identification information in the order package identification set to corresponding supply order data according to the supplier supply information matched with the intention order data.

The supply order data at least comprises materials supplied by suppliers and order transaction data.

In this embodiment of the present application, before each package identifier information in the order package identifier set is respectively allocated to corresponding supply order data according to supplier supply information matched with the intent order data, the method further includes:

and the server determines the provider publishing information in the preset time according to the order sending time of the intention order data and the order purchasing object data. And determining an order transaction risk value of the information supplied by each undetermined supplier in the information published by each supplier according to a preset transaction model. And screening the pending supplier supply information with the order transaction risk value smaller than the preset threshold value, and determining corresponding order supply time to take the pending supplier supply information with the minimum order supply time as supplier supply information matched with the intention order data.

In other words, the server can determine the order placement time of the intention order data and the purchase object data of the order, that is, the release time of the intention order data and the object to be purchased, based on the identification in the package identification information. The server can screen the provider release information in the preset time according to the release time and the purchasing object. The preset transaction model can be a pre-trained risk calculation model which can calculate transaction risk values of suppliers and products supplied by the suppliers in the published information of the suppliers, and the risk calculation model is obtained by training based on historical supply data and evaluation information of the suppliers. Further, the server may screen out the pending supplier supply information corresponding to the order transaction risk value smaller than the preset threshold, and select the pending supplier supply information with the fastest supply time as the supplier supply information. The preset threshold is set by the user according to the actual situation, which is not particularly limited in this application.

In this embodiment of the present application, according to supplier supply information matched with the intention order data, each piece of package identification information in the order package identification set is respectively allocated to corresponding supply order data, and specifically includes:

the server determines the supply order data corresponding to the supplier supply information. And establishing a corresponding associated knowledge graph according to the intention order data and the supply order data. The associated knowledge graph corresponds to the association relation between the intention order data and the supply order data. Based on the associated knowledge graph and the order packaging identification set, generating identification application information through an identification analysis management module, sending the identification application information to a secondary identification analysis node, and acquiring a corresponding supply order identification code of supply order data from the secondary identification analysis node. The supply order identification code at least comprises a bar code and a two-dimensional code.

The server can establish a correlation knowledge graph according to the corresponding relation between the supply order data and the intention order data, namely, one intention order corresponds to at least one supply order, and the server generates identification application information on the side of the supply order, namely, the identification of the application supply order data by means of the correlation knowledge graph and the order encapsulation identification set.

The method specifically comprises the steps of generating identification application information through an identification analysis management module based on an associated knowledge graph and an order packaging identification set, wherein the identification application information specifically comprises the following steps:

and determining the association relation between the single intention order in the intention order data and the single supply order in the supply order data according to the association knowledge graph. And determining binding information of each single supply order according to the association relation between the single intention order in the intention order data and the single supply order in the supply order data and the package identification information of each single intention order in the order package identification set. The binding information is used to specify a relationship between package identification information of the individual intent order and the individual supply order. The binding information includes at least a temporal relationship, a spatial relationship, and a contextual relationship. And generating identification application information according to the corresponding binding information of the supply order data through the identification analysis management module so as to acquire a supply order identification code with a preset binding relationship with the packaging identification information of the single intention order.

In other words, the order existence identifier in the intention order data can send the binding information when applying for the identifier according to the association relationship with the supply order, so that the binding association relationship exists between the supply order identifier and the identifier of the intention order.

And S104, under the condition that the server receives the real-time order inquiry command, displaying each piece of supply order data allocated with the identification information to the corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

The user terminal or the provider terminal is used as a query terminal to send a real-time order query instruction to the server, the instruction at least comprises an identification code to be queried, corresponding supply order data can be displayed to the query terminal according to the identification code, the supply order data in the node can be changed at the query terminal, and the server can update the real-time order.

In the embodiment of the application, the server is connected with the user terminal and the supplier terminal through a preset enterprise resource planning system (Enterprise Resource Planning, ERP) interface, a warehouse management system (Warehouse Management System, WMS) interface and a transportation management system (transportation management system, TMS) interface so as to display the supply order data stored in each docking system based on the package identification information.

That is, the server can be in butt joint with a plurality of systems such as ERP, WMS, TMS, and full-flow digital integrated management such as supplier, client, warehouse management, demand release, order taking, contract management, order execution and the like is realized. The flexible integration of the supply chain platform is realized, and the full-flow digitization of the service is realized.

The supply chain platform realized by the technical scheme can realize trade matching and platform operation: a B2B matching transaction platform is provided for customers, and customers and sellers can issue supply and demand information and conduct order transaction by relying on a supply chain purchasing platform, and accurate management and control of spot transaction are achieved by relying on platform data analysis, load prediction, transaction simulation, algorithm model and the like. Intensive purchasing, gathering customer order intensive purchasing, providing services such as order transaction, contract auditing, logistics storage, transportation delivery, platform settlement and the like for customers, and gathering customer resources for suppliers. The system is flexibly integrated, realizes the full-flow digitization of the business, and the platform is in butt joint with a plurality of systems such as ERP, WMS, TMS through the digitization management operation, so as to realize the full-flow digital integrated management such as supplier, client, warehouse management, demand release, order taking, contract management, order execution and the like. The technical improvement is advanced, the development of an industrial chain is enabled, the digital transformation requirements of enterprises at the upstream and downstream of the industry are polymerized by taking order transaction as media, and a factory intelligent transformation solution is provided. And (3) information tracing, namely recording and tracing the full life cycle information of the virtual or entity object through an identification analysis system, acquiring product material information or material purchase sales order information according to the identity code, and carrying out unique positioning and information inquiry on orders and articles to realize information sharing and life cycle monitoring.

By the technical scheme, a real-time order processing method under a system of identification analysis is provided for suppliers and manufacturers, information asymmetry is relieved, transparency of supply chain data is ensured, and operation efficiency of a supply chain is improved. Thereby reducing the order delivery cycle and improving the user experience.

Fig. 2 is a schematic structural diagram of a real-time order processing apparatus for a supply chain platform according to an embodiment of the present application, where the apparatus includes:

at least one processor; and a memory communicatively coupled to the at least one processor. Wherein the memory stores instructions executable by the at least one processor, the instructions being executable by the at least one processor to enable the at least one processor to:

and acquiring the intention order data from the user terminal. Based on the intent order data, a corresponding set of order package identifications is generated. Wherein, each piece of package identification information in the order package identification set has a preset association relation. And respectively distributing the package identification information in the order package identification set to corresponding supply order data according to the supplier supply information matched with the intention order data. The supply order data at least comprises materials supplied by suppliers and order transaction data. And under the condition that a real-time order inquiry command is received, displaying each supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

The embodiments also provide a real-time order processing non-volatile computer storage medium for a supply chain platform, storing computer executable instructions configured to:

and acquiring the intention order data from the user terminal. Based on the intent order data, a corresponding set of order package identifications is generated. Wherein, each piece of package identification information in the order package identification set has a preset association relation. And respectively distributing the package identification information in the order package identification set to corresponding supply order data according to the supplier supply information matched with the intention order data. The supply order data at least comprises materials supplied by suppliers and order transaction data. And under the condition that a real-time order inquiry command is received, displaying each supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

All embodiments in the application are described in a progressive manner, and identical and similar parts of all embodiments are mutually referred, so that each embodiment mainly describes differences from other embodiments. In particular, for the apparatus, medium embodiments, since they are substantially similar to the method embodiments, the description is relatively simple, and reference is made to the description of the method embodiments for relevant points.

The devices, media and methods provided in the embodiments of the present application are in one-to-one correspondence, so that the devices and media also have similar beneficial technical effects as the corresponding methods, and since the beneficial technical effects of the methods have been described in detail above, the beneficial technical effects of the devices and media are not described in detail herein.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (10)

1. A real-time order processing method for a supply chain platform, the method comprising:

acquiring intention order data from a user terminal;

generating a corresponding order packaging identification set based on the intention order data; wherein, each piece of packaging identification information in the order packaging identification set has a preset association relation;

distributing the package identification information in the order package identification set to corresponding supply order data according to supplier supply information matched with the intention order data; wherein the supply order data at least comprises supplier supply materials and order transaction data;

and under the condition that a real-time order inquiry command is received, displaying each piece of supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

2. The method of claim 1, wherein generating a corresponding set of order package identifications based on the intent order data, comprises:

determining order sales flow information corresponding to the intention order data and a plurality of order sales nodes corresponding to the order sales flow information according to the intention order data and the corresponding selected suppliers;

determining the packaging identification information of the order sales nodes corresponding to the intention order data according to the quantity of the order sales nodes and the order flow direction sequence; the association relation between the package identification information is determined based on the number of the order sales nodes and the order flow direction sequence; each piece of package identification information comprises an extensible package identification;

according to a preset classification category, packaging the packaging identification information into at least one order packaging identification set; wherein the classification category is determined based on the order number of the user annotation.

3. The method of claim 1, wherein before assigning each of the package identification information in the set of order package identifications to corresponding supply order data, respectively, based on vendor supply information matching the intent order data, the method further comprises:

determining provider publishing information in preset time according to the order issuing time of the intention order data and the order purchasing object data;

determining an order transaction risk value of the supply information of each undetermined supplier in the release information of each supplier according to a preset transaction model;

and screening the pending supplier supply information with the order transaction risk value smaller than a preset threshold value, and determining corresponding order supply time to take the pending supplier supply information with the minimum order supply time as supplier supply information matched with the intention order data.

4. A method according to claim 3, wherein each of said package identification information in said set of order package identifications is assigned to a respective supply order data in accordance with supplier supply information matching said intention order data, in particular comprising:

determining corresponding supply order data of the supplier supply information;

establishing a corresponding associated knowledge graph according to the intention order data and the supply order data; wherein the associated knowledge graph corresponds to an association relationship between the intent order data and the supply order data;

generating identification application information through an identification analysis management module based on the association knowledge graph and the order packaging identification set so as to send the identification application information to a secondary identification analysis node and acquire a corresponding supply order identification code of the supply order data from the secondary identification analysis node; the supply order identification code at least comprises a bar code and a two-dimensional code.

5. The method of claim 4, wherein generating, by an identifier resolution management module, identifier application information based on the association knowledge graph and the order package identifier set, specifically comprises:

according to the association knowledge graph, determining the association relation between the single intention order in the intention order data and the single supply order in the supply order data;

determining binding information of each single supply order according to the association relation between the single intention order in the intention order data and the single supply order in the supply order data and the package identification information of each single intention order in the order package identification set; the binding information is used for specifying the relation between the package identification information of the single intention order and the single supply order; the binding information at least comprises a time relationship, a space relationship and a context relationship;

and generating the identification application information according to the corresponding binding information of the supply order data by the identification analysis management module so as to acquire a supply order identification code with a preset binding relationship with the package identification information of the single intention order.

6. The method according to claim 1, wherein obtaining the intention order data from the user terminal comprises:

determining whether the user terminal has a corresponding preset purchase contract or not based on order application information of the user terminal;

if yes, generating intention order data according to the preset purchase contract;

otherwise, an order intention confirming interface is sent to the user terminal so as to determine the intention order data based on the operation of a user on the user terminal; the intent order data includes at least intent order content, intent suppliers.

7. The method according to claim 1, wherein the method further comprises:

acquiring the intention order data of multiple batches from the user terminal;

and respectively determining corresponding order packaging identification sets according to the intention order data of the multiple batches, and combining all the order packaging identification sets to determine the supplier supply information corresponding to the intention order data of the multiple batches.

8. The method according to claim 1, wherein the method further comprises:

the server is connected with the user terminal and the supplier terminal through a preset ERP interface of the enterprise resource planning system, a WMS interface of the warehouse management system and a TMS interface of the transportation management system so as to display the supply order data stored in each docking system based on the encapsulation identification information.

9. A real-time order processing apparatus for a supply chain platform, the apparatus comprising:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein, the liquid crystal display device comprises a liquid crystal display device,

the memory stores instructions executable by the at least one processor to enable the at least one processor to:

acquiring intention order data from a user terminal;

generating a corresponding order packaging identification set based on the intention order data; wherein, each piece of packaging identification information in the order packaging identification set has a preset association relation;

distributing the package identification information in the order package identification set to corresponding supply order data according to supplier supply information matched with the intention order data; wherein the supply order data at least comprises supplier supply materials and order transaction data;

and under the condition that a real-time order inquiry command is received, displaying each piece of supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

10. A real-time order processing non-transitory computer storage medium for a supply chain platform storing computer executable instructions, the computer executable instructions configured to:

acquiring intention order data from a user terminal;

generating a corresponding order packaging identification set based on the intention order data; wherein, each piece of packaging identification information in the order packaging identification set has a preset association relation;

distributing the package identification information in the order package identification set to corresponding supply order data according to supplier supply information matched with the intention order data; wherein the supply order data at least comprises supplier supply materials and order transaction data;

and under the condition that a real-time order inquiry command is received, displaying each piece of supply order data allocated with the identification information to a corresponding inquiry terminal so as to update the real-time order based on the operation of the inquiry terminal.

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