CN113780904A

CN113780904A - Supply chain management system and method

Info

Publication number: CN113780904A
Application number: CN202111336370.9A
Authority: CN
Inventors: 谢家贵; 陈美兰; 李志平; 刘红炎; 韩盈盈; 张少飞
Original assignee: China Academy of Information and Communications Technology CAICT
Current assignee: China Academy of Information and Communications Technology CAICT
Priority date: 2021-11-12
Filing date: 2021-11-12
Publication date: 2021-12-10

Abstract

The embodiment of the application provides a supply chain management system and a supply chain management method, wherein a target sales store terminal sends first goods request information to a non-target sales store terminal under the condition that the target sales store is out of stock; the non-target sales store terminal responds to the first goods request information to determine whether the goods are left, if so, the address information of the store is fed back to the target sales store terminal, and the transport provider transports the left goods of the non-target sales store to the target sales store according to the address information of the store; if no goods remain, feeding back first goods-free information to the target sales store terminal, and sending first order information to the target supplier terminal by the target sales store terminal according to the first goods-free information; so that the target supplier supplies goods to the target sales store according to the first order information. The supply chain management system does not need to transmit data to a third-party management platform to be processed uniformly, complexity of a processing flow is reduced, data processing errors are not prone to occurring, and data safety is higher.

Description

Supply chain management system and method

Technical Field

The present application relates to the field of supply chain technology, and in particular, to a supply chain management system and method.

Background

The current supply chain management methods are generally as follows: a supply chain management system is specially arranged to communicate with upstream and downstream main bodies (such as sellers, suppliers, manufacturers, carriers and the like), all the main bodies send supply information (such as order information, inventory information and the like) to the supply chain management system, and the supply chain management system performs planning, coordination, operation and control on the whole supply chain uniformly.

The following problems exist in the prior art:

the first point is as follows: the supply chain centralized management security is poor, and when a supply chain system centralized scheduling system fails, the security of information, data and a storage network of the supply chain system centralized scheduling system is damaged to a certain extent.

And a second point: the supply flow is complex, the data security is low, namely the supply chain management system plans, coordinates, operates and controls the whole supply chain, and the supply chain management system has a lot of data to process due to the excessive number of main bodies on the upstream and downstream of the supply chain. Therefore, the technical processing requirement on the supply chain management system is higher, and the processing flow of the supply chain management system is more complicated.

Disclosure of Invention

The embodiment of the application provides a supply chain management system and a supply chain management method, data do not need to be transmitted to a third party management platform to be processed in a unified mode, data interaction processing is carried out among all members in the supply chain management system, complexity of a processing flow is reduced, data processing errors are not prone to occurring, and data safety is high.

According to a first aspect of the embodiments of the present application, there is provided a supply chain management system, including a plurality of sales store terminals, a plurality of provider terminals and a carrier terminal, where the plurality of sales store terminals include a target sales store terminal and a non-target sales store terminal, and the target sales store terminal is communicatively connected to the plurality of provider terminals, the carrier terminal and the non-target sales store terminal;

the target sales store terminal is used for sending first goods request information to the non-target sales store terminal under the condition that the target sales store is out of stock;

the non-target sales store terminal is used for responding to the first goods request information, confirming whether the goods are left or not, and feeding back store address information to the target sales store terminal if the goods are left; if no goods remain, feeding back first goods-free information to the target sales store terminal;

the target sales store terminal is further used for sending the store address information to the carrier terminal under the condition of receiving the store address information; enabling the transport provider to transport the surplus goods of the non-target sales store to the target sales store according to the store address information; the terminal of the carrier is a terminal of the carrier, the terminal of the non-target sales store is a terminal of the non-target sales store, and the terminal of the target sales store is a terminal of the target sales store;

the target sales store terminal is further used for sending first order information to a target supplier terminal under the condition of receiving the first goods-free information; enabling the target supplier to supply goods to the target sales store according to the first order information; wherein the target provider terminal is a terminal of the target provider, and the target provider is a provider which supplies goods to the target sales store fastest.

According to a second aspect of the embodiments of the present application, there is provided a supply chain management method, which is applied to the supply chain management system described above, and includes:

under the condition that a target sales store is out of stock, the target sales store terminal sends first goods request information to a non-target sales store terminal;

the non-target sales store terminal responds to the first goods request information and confirms whether the goods are left or not;

if the goods are left, the non-target sales store terminal feeds back store address information to the target sales store terminal;

if the goods are left, the non-target sales store terminal feeds back first goods-free information to the target sales store terminal;

the target sales store terminal sends the store address information to a carrier terminal under the condition of receiving the store address information; enabling the transport provider to transport the surplus goods of the non-target sales store to the target sales store according to the store address information;

the target sales store terminal sends first order information to a target supplier terminal under the condition of receiving the first goods-free information; so that the target supplier supplies goods to the target sales store according to the first order information.

By adopting the supply chain management system and method provided by the embodiment of the application, the target sales store terminal sends the first goods request information to the non-target sales store terminal under the condition that the target sales store is out of stock; the non-target sales store terminal responds to the first goods request information, whether the goods are left or not is confirmed, and if the goods are left, the address information of the stores is fed back to the target sales store terminal; if no goods remain, feeding back first goods-free information to the target sales store terminal; the target sales store terminal sends store address information to the carrier terminal under the condition of receiving the store address information; enabling the transport provider to transport the surplus goods of the non-target sales store to the target sales store according to the store address information; the target sales store terminal sends first order information to the target supplier terminal under the condition of receiving the first goods-free information; so that the target supplier supplies goods to the target sales store according to the first order information.

Therefore, data interaction processing is carried out among all members in the supply chain management system, data do not need to be transmitted to a third-party management platform to be processed in a unified mode, complexity of a processing flow is reduced, data processing errors are not prone to occurring, and data safety is high. The data interaction processing is carried out among all members in the supply chain management system, the optimal supply mode can be quickly determined, and the supply efficiency is improved. When one of the sales stores has no goods, the goods are inquired of each sales store, the sales stores with goods directly call the transport provider to supply goods, and all the sales stores have no goods and submit orders to the provider, so that not only can zero-inventory management be realized, but also the supply efficiency can be 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 embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural diagram of a supply chain management system according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of another supply chain management system according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of another supply chain management system provided in the embodiment of the present application;

fig. 4 is a schematic flowchart of a supply chain management method according to an embodiment of the present application;

fig. 5 is a schematic flow chart of another supply chain management method according to an embodiment of the present disclosure;

fig. 6 is a schematic flow chart of another supply chain management method according to an embodiment of the present application.

Icon:

10-supply chain management system; 100-a sales store terminal; 200-a supplier terminal; 300-a carrier terminal; 400-manufacturer terminal; 500-parts supplier terminal; 600-an identity resolution system; 700-digital object interoperability service.

Detailed Description

In the process of implementing the present application, the inventor finds that the current supply chain management method is generally as follows: a supply chain management system is specially arranged to communicate with upstream and downstream main bodies (such as sellers, suppliers, manufacturers, carriers and the like), all the main bodies send supply information (such as order information, inventory information and the like) to the supply chain management system, and the supply chain management system performs planning, coordination, operation and control on the whole supply chain uniformly.

The following problems exist in the prior art:

In view of the above problems, the embodiments of the present application provide a supply chain management system and method, where a target store terminal sends first goods request information to a non-target store terminal when the target store is out of stock; the non-target sales store terminal responds to the first goods request information, whether the goods are left or not is confirmed, and if the goods are left, the address information of the stores is fed back to the target sales store terminal; if no goods remain, feeding back first goods-free information to the target sales store terminal; the target sales store terminal sends store address information to the carrier terminal under the condition of receiving the store address information; enabling the transport provider to transport the surplus goods of the non-target sales store to the target sales store according to the store address information; the target sales store terminal sends first order information to the target supplier terminal under the condition of receiving the first goods-free information; so that the target supplier supplies goods to the target sales store according to the first order information.

The scheme in the embodiment of the application can be implemented by adopting various computer languages, such as object-oriented programming language Java and transliterated scripting language JavaScript.

In order to make the technical solutions and advantages of the embodiments of the present application more apparent, the following further detailed description of the exemplary embodiments of the present application with reference to the accompanying drawings makes it clear that the described embodiments are only a part of the embodiments of the present application, and are not exhaustive of all embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Referring to fig. 1, a schematic structural diagram of a supply chain management system 10 provided in an embodiment of the present application is shown, where the supply chain management system 10 includes a plurality of sales store terminals 100, a plurality of provider terminals 200, and a carrier terminal 300, the plurality of sales store terminals 100 includes a target sales store terminal 100 and a non-target sales store terminal 100, and the target sales store terminal 100 is communicatively connected to the plurality of provider terminals 200, the carrier terminal 300, and the non-target sales store terminal 100.

The target store terminal 100 is configured to send first goods request information to the non-target store terminal 100 when the target store is out of stock; the non-target retail store terminal 100 is configured to respond to the first goods request information, determine whether there are surplus goods, and if there are surplus goods, feed back store address information to the target retail store terminal 100; if no goods remain, feeding back first goods-free information to the target sales store terminal 100; the target sales store terminal 100 is also configured to transmit store address information to the carrier terminal 300 in a case where the store address information is received; enabling the transport provider to transport the surplus goods of the non-target sales store to the target sales store according to the store address information; the carrier terminal 300 is a terminal of a carrier, the non-target store terminal 100 is a terminal of a non-target store, and the target store terminal 100 is a terminal of a target store; the target retail store terminal 100 is further configured to transmit first order information to the target provider terminal 200 in case of receiving the first shipment information; so that the target supplier supplies goods to the target sales store according to the first order information; the target provider terminal 200 is a terminal of a target provider, and the target provider is a provider that supplies goods to the target sales store most quickly.

It is to be understood that the point-of-sale terminal 100 is a server or a computer device or the like provided at the point-of-sale, the provider terminal 200 is a server or a computer device or the like provided at the provider, and the carrier terminal 300 is a server or a computer device or the like provided at the carrier. The number of the target store terminals 100 may be one or more, and a terminal corresponding to a backorder store is set as the target store terminal 100.

In this embodiment, the sales store may be a chain supermarket store, a chain clothing store, a chain milk tea store, or the like.

Under the condition that the target sales store is out of stock, first sending first goods request information to the non-target sales store terminal 100 through the target sales store terminal 100, namely, inquiring goods from the non-target sales store, and directly providing the goods to the target sales store through a carrier by the non-target sales store with the goods; if all the non-target sales stores have no goods, the target sales store sends the first order information to the provider terminal 200 through the target sales store terminal 100, namely, the target sales store is supplied by the provider. Through this kind of mode, not only can realize the management of zero stock, can also improve supply of material efficiency.

The target provider may be determined according to the distance between the target sales store and the provider, that is, the provider closest to the target sales store may be selected as the target provider.

In this embodiment, the principle that the target retail store terminal 100 determines whether it is in the out-of-stock state may be: the target sales store terminal 100 is further configured to estimate a first predicted sales volume according to the first historical sales volume; the target retail terminal 100 is also configured to determine whether a backorder situation occurs based on the first predicted sales amount.

It should be understood that the target retail store terminal 100 gives the article identification information to each article and records the article identification information when the target retail store receives a shipment; when each commodity is sold, correspondingly marking commodity selling information according to the commodity identification information; and counting the first historical sales according to the commodity identification information and the commodity selling information, and obtaining a first predicted sales of the target sales store according to the first historical sales.

Similarly, the principle that the non-target sales store judges whether the non-target sales store has surplus goods or not can be as follows: the non-target sales store is also used for estimating a second predicted sales volume according to a second historical sales volume; the non-target sales outlets are also configured to determine whether there are excess goods based on the second forecasted sales.

As shown in fig. 2, the supply chain management system 10 further includes a plurality of producer terminals 400, the plurality of producer terminals 400 including a target producer terminal 400, the target producer terminal 400 being communicatively connected to the plurality of supplier terminals 200.

The target supplier terminal 200 is used for confirming whether goods are available according to the first order information; if no goods exist, the target supplier terminal 200 is further configured to send second goods request information to the non-target supplier terminal 200; the non-target supplier terminal 200 is used for responding to the second cargo request information, confirming whether there is surplus cargo, and feeding back supplier address information to the target supplier terminal 200 if there is surplus cargo; if no goods remain, feeding back second goods-free information to the target supplier terminal 200; the target supplier terminal 200 is further configured to send second order information to the target producer terminal 400 according to the second non-good information; so that the target manufacturer supplies the target supplier according to the second order information.

It should be understood that the target provider, after receiving the first order information, will first confirm whether there is a good or not, and if so, then directly deliver the good to the target sales store. If no goods exist, first sending second goods request information to the non-target supplier terminal 200 through the target supplier terminal 200, inquiring whether surplus goods exist or not by the non-target supplier terminal 200 according to the second goods request information, if the surplus goods exist, feeding back supplier address information to the target supplier terminal 200, and adjusting goods to a target sales store from the non-target supplier with the surplus goods by the target supplier according to the supplier address information; if all the non-target suppliers have no spare goods, the target supplier sends second order information to the target producer terminal 400 through the target supplier terminal 200, and the target producer supplies goods to the target supplier according to the second order information.

Wherein, the target manufacturer can be determined according to the distance between the target supplier and the manufacturer, and the manufacturer closest to the target supplier can be selected as the target manufacturer. The manufacturer terminal 400 is a server or a computer device or the like provided at the manufacturer.

With continued reference to fig. 2, the supply chain management system 10 further includes a plurality of parts supplier terminals 500, the plurality of manufacturer terminals 400 further includes non-target manufacturer terminals 400, the plurality of parts supplier terminals 500 includes target parts supplier terminals 500 and non-target parts supplier terminals 500, the target parts supplier terminals 500 are communicatively connected to both the plurality of manufacturer terminals 400 and the non-target parts supplier terminals 500, and the target manufacturer terminals 400 are communicatively connected to the non-target manufacturer terminals 400.

The target manufacturer terminal 400 is configured to determine whether there is a corresponding component according to the second order information; if there are no corresponding parts, the target manufacturer terminal 400 is further configured to send first part request information to the non-target manufacturer terminal 400; the non-target manufacturer terminal 400 is used for responding to the first part request information, confirming whether surplus goods exist or not, and if the surplus goods exist, feeding back manufacturer address information to the target manufacturer terminal 400; if no goods remain, feeding back third goods-free information to the target manufacturer terminal 400; the target manufacturer terminal 400 is further configured to send third order information to the target part supplier terminal 500 according to the third non-good information; the target part supplier terminal 500 is configured to determine whether there is a good according to the third order information; if no, the target parts supplier terminal 500 is further configured to send a second parts request message to the non-target parts supplier terminal 500; the non-target part supplier terminal 500 is configured to respond to the second part request information, determine whether there is any remaining goods, and if there are any remaining goods, feed back part supplier address information to the target part supplier terminal 500; if there is no remaining goods, fourth no-goods information is fed back to the target parts supplier terminal 500.

It should be understood that, after receiving the second order information, the target manufacturer terminal 400 may first determine whether there is a corresponding part, and if there is a corresponding part, directly produce the goods and provide the produced goods to the target supplier; if no corresponding parts exist, the target manufacturer terminal 400 sends first part request information to the non-target manufacturer terminal 400, the non-target manufacturer terminal 400 confirms whether surplus goods exist or not according to the first part request information, if the surplus goods exist, manufacturer address information is fed back to the target manufacturer terminal 400, and the target manufacturer phase modulates corresponding parts from the non-target manufacturer with the surplus goods according to the manufacturer address information; if all the non-target manufacturers have no corresponding parts, the target manufacturer terminal 400 sends third order information to the target part supplier terminal 500, the target part supplier terminal 500 confirms whether goods exist according to the third order information, and if the corresponding parts exist, the target part supplier directly provides the corresponding parts to the target manufacturers; if the target part supplier does not have corresponding parts, the target part supplier terminal 500 sends second part request information to the non-target part supplier terminal 500, the non-target part supplier terminal 500 responds to the second part request information to confirm whether remaining goods exist, if the remaining goods exist, the part supplier terminal 500 feeds back part supplier address information, and the target part supplier calls corresponding parts from the non-target part supplier with the remaining goods according to the part supplier address information; if all the non-target part suppliers have no spare goods, the target part supplier terminal 500 feeds back order invalidation information to the target manufacturer.

The target part supplier can be determined according to the distance between the target manufacturer and the part supplier, and the part supplier closest to the target manufacturer can be selected as the target part supplier. Parts supplier terminal 500 is a server or computer device or the like provided at a parts supplier.

As shown in fig. 3, the supply chain management system 10 further includes an identification resolution system 600, and the identification resolution system 600 is communicatively connected to the target point-of-sale store terminal 100.

The target retail store terminal 100 is configured to send address request information to the identifier resolution system 600; the identification resolution system 600 provides the target sales store terminal 100 with the first communication address of the non-target sales store terminal 100, the second communication addresses of the plurality of provider terminals 200, and the third communication address of the carrier terminal 300 according to the address request information; the targeted outlet establishes communication connections with the plurality of supplier terminals 200, the carrier terminal 300, and the non-targeted outlet terminal 100 according to the first communication address, the second communication address, and the third communication address.

It should be understood that, after the target retail store terminal 100 is determined among the plurality of retail store terminals 100, the target retail store terminal 100 transmits address request information to the identification resolution system 600 to establish communication connection with the plurality of vendor terminals 200, carrier terminals 300, and non-target retail store terminals 100.

Among them, the identification resolution system 600 stores in advance a first communication address of the target sales outlet terminal 100, second communication addresses of the plurality of provider terminals 200, and a third communication address of the carrier terminal 300.

In this embodiment, after determining the target supplier terminal 200, the target manufacturer terminal 400, and the target part supplier terminal 500, the target supplier terminal 200 sends address request information to the identification resolution system 600; the identifier resolution system 600 is configured to provide the fourth communication address of the target manufacturer terminal 400 and the fifth communication address of the non-target provider terminal 200 to the target provider terminal 200 according to the address request information, and the target provider terminal 200 is configured to establish communication connections with the target manufacturer terminal 400 and the non-target provider terminal 200 respectively according to the fourth communication address and the fourth communication address.

The target producer terminal 400 sends address request information to the identifier resolution system 600; the identifier resolution system 600 is configured to provide the sixth communication address of the target part supplier terminal 500 and the seventh communication address of the non-target manufacturer terminal 400 to the target manufacturer terminal 400 according to the address request information, and the target manufacturer terminal 400 is configured to establish communication connections with the target part supplier terminal 500 and the non-target manufacturer terminal 400 respectively according to the sixth communication address and the seventh communication address.

The identifier resolution system 600 also stores a fourth communication address of the target manufacturer terminal 400, a fifth communication address of the non-target supplier terminal 200, a sixth communication address of the target part supplier terminal 500, and a seventh communication address of the non-target manufacturer terminal 400 in advance.

In the present embodiment, the supply chain management system 10 further includes a plurality of digital object interoperation services 700, and the plurality of sales outlet terminals 100, the plurality of supplier terminals 200, the carrier terminal 300, the plurality of manufacturer terminals 400, and the plurality of parts supplier terminals 500 are respectively integrated with the digital object interoperation services 700.

The plurality of digital object interoperation services 700 are in communication connection with the identity resolution system 600, the target sales outlet terminal 100 establishes communication connection with the plurality of supplier terminals 200, the carrier terminal 300 and the non-target sales outlet terminal 100 based on the corresponding digital object interoperation services 700, the target manufacturer terminal 400 establishes communication connection with the plurality of supplier terminals 200 and the non-target manufacturer terminal 400 based on the corresponding digital object interoperation services 700, and the target parts supplier terminal 500 establishes communication connection with the plurality of manufacturer terminals 400 and the non-target parts supplier terminal 500 based on the corresponding digital object interoperation services 700.

It should be understood that plurality of digital object interoperability services 700 includes first digital object interoperability service 700, second digital object interoperability service 700, third digital object interoperability service 700, fourth digital object interoperability service 700, fifth digital object interoperability service 700, sixth digital object interoperability service 700, seventh digital object interoperability service 700, eighth digital object interoperability service 700, and ninth digital object interoperability service 700, that first digital object interoperability service 700 is digital object interoperability service 700 integrated on target retail store terminal 100, that second digital object interoperability service 700 is digital object interoperability service 700 integrated on non-target retail store terminal 100, that third digital object interoperability service 700 is digital object interoperability service 700 integrated on target provider terminal 200, that fourth digital object interoperability service 700 is digital object interoperability service 700 integrated on non-target provider terminal 200, fifth digital object interoperability service 700 is digital object interoperability service 700 integrated on carrier terminal 300, sixth digital object interoperability service 700 is digital object interoperability service 700 integrated on target manufacturer terminal 400, seventh digital object interoperability service 700 is digital object interoperability service 700 integrated on non-target manufacturer terminal 400, eighth digital object interoperability service 700 is digital object interoperability service 700 integrated on target part supplier terminal 500, and ninth digital object interoperability service 700 is digital object interoperability service 700 integrated on non-target part supplier terminal 500.

The first digital object interoperation service 700 for allocating a store identification to the target sales store terminal 100; the system is further configured to define metadata and main data according to the attribute information of the target sales store terminal 100 to obtain a digital object, bind the digital object and the store identifier, and upload the bound digital object and the store identifier to the identifier resolution system 600; and also for defining the operation authority, the uniform data format and the data interaction protocol of the target retail store terminal 100. The attribute information of the target store terminal 100 includes a communication address of the target store terminal 100.

The second digital object interoperation service 700 for allocating a store identification to the non-targeted sales store terminal 100; the system is further configured to define metadata and main data according to the attribute information of the non-target retail store terminal 100 to obtain a digital object, bind the digital object and the store identifier, and upload the bound digital object and the store identifier to the identifier resolution system 600; and also for defining the operation authority, the uniform data format, and the data interaction protocol of the non-targeted point-of-sale terminal 100. The attribute information of the non-target store terminal 100 includes the communication address of the non-target store terminal 100.

Third digital object interoperability service 700 for assigning a provider identification to target provider terminal 200; further configured to define metadata and main data according to the attribute information of the target provider terminal 200 to obtain a digital object, bind the digital object and the provider identifier, and upload the bound digital object and the provider identifier to the identifier resolution system 600; and also for defining the operation authority, the unified data format, and the data interaction protocol of the target provider terminal 200. Wherein the attribute information of the target provider terminal 200 includes a communication address of the target provider terminal 200.

Fourth digital object interoperability service 700 for assigning a provider identification to non-target provider terminal 200; the system is further configured to define metadata and main data according to the attribute information of the non-target provider terminal 200 to obtain a digital object, bind the digital object and a provider identifier, and upload the bound digital object and provider identifier to the identifier resolution system 600; but also for defining the operation authority, unified data format and data interaction protocol of the non-target provider terminal 200. Wherein the attribute information of the non-target provider terminal 200 includes a communication address of the non-target provider terminal 200.

Fifth digital object interoperability service 700 is for assigning a carrier identification to carrier terminal 300; the system is further configured to define metadata and main data according to the attribute information of the carrier terminal 300 to obtain a digital object, bind the digital object and the carrier identifier, and upload the bound digital object and the carrier identifier to the identifier resolution system 600; and also for defining the operation authority, the unified data format, and the data interaction protocol of the carrier terminal 300. Wherein the attribute information of the carrier terminal 300 includes a communication address of the carrier terminal 300.

The sixth digital object interoperation service 700 for allocating a producer identity to the target producer terminal 400; the system is further configured to define metadata and main data according to the attribute information of the target manufacturer terminal 400 to obtain a digital object, bind the digital object and the manufacturer identifier, and upload the bound digital object and manufacturer identifier to the identifier resolution system 600; and also for defining the operation authority, unified data format and data interaction protocol of the target manufacturer terminal 400. Wherein the attribute information of the target producer terminal 400 includes a communication address of the target producer terminal 400.

The seventh digital object interoperation service 700 for allocating a producer identity to the non-target producer terminal 400; the system is further configured to define metadata and main data according to the attribute information of the non-target manufacturer terminal 400 to obtain a digital object, bind the digital object and the manufacturer identifier, and upload the bound digital object and manufacturer identifier to the identifier resolution system 600; but also to define the operation authority, unified data format and data interaction protocol of the non-target manufacturer terminal 400. Wherein the attribute information of the non-target producer terminal 400 includes a communication address of the non-target producer terminal 400.

Eighth digital object interoperability service 700 for assigning a part supplier identification to target part supplier terminal 500; the system is further configured to define metadata and main data according to the attribute information of the target part supplier terminal 500 to obtain a digital object, bind the digital object and the part supplier identifier, and upload the bound digital object and the part supplier identifier to the identifier resolution system 600; and also for defining the operation authority, unified data format, and data interaction protocol of the target part supplier terminal 500. Wherein the attribute information of target part supplier terminal 500 includes a communication address of target part supplier terminal 500.

Ninth digital object interoperability service 700 is for assigning part supplier identifications to non-target part supplier terminals 500; the system is further configured to define metadata and main data according to the attribute information of the non-target part supplier terminal 500 to obtain a digital object, bind the digital object and the part supplier identifier, and upload the bound digital object and the part supplier identifier to the identifier resolution system 600; and also for defining the operating rights, unified data format, and data interaction protocol of the non-target part supplier terminal 500. Wherein the attribute information of non-target part supplier terminal 500 includes a communication address of non-target part supplier terminal 500.

In this embodiment, the address request information transmitted by the target sales store terminal 100 to the identification resolution system 600 includes the store identification of the non-target sales store terminal 100, the provider identification of the provider terminal 200, and the carrier identification of the carrier terminal 300. The address request information transmitted from the target provider terminal 200 to the identity resolution system 600 includes the manufacturer identity of the target manufacturer terminal 400 and the provider identity of the non-target provider terminal 200. The address request information transmitted from the target manufacturer terminal 400 to the identification resolution system 600 includes the part supplier identification of the target part supplier terminal 500 and the manufacturer identification of the non-target manufacturer terminal 400.

The interworking between the sales store terminals 100, between the sales store terminals 100 and the supplier terminals 200, between the supplier terminals 200 and the manufacturer terminals 400, between the manufacturer terminals 400 and the part supplier terminals 500, and between the part supplier terminals 500 is realized by the identification resolution system 600, that is, the interworking of the members in the supply chain management system 10 is realized based on the digital object interoperability service 700. The interface development for different terminals is not needed, and the butt joint cost of the terminals can be effectively reduced.

Referring to fig. 4, fig. 4 is a supply chain management method provided in an embodiment of the present application based on the supply chain management system 10 shown in fig. 1, where the supply chain management method may include the following steps:

s101, when the target sales store is out of stock, the target sales store terminal sends first goods request information to the non-target sales store terminal.

And S102, the non-target sales store terminal responds to the first goods request information and confirms whether the goods are left or not.

And S103, if the surplus goods exist, the non-target sales store terminal feeds back store address information to the target sales store terminal.

And S104, if no goods remain, the non-target sales store terminal feeds back first goods-free information to the target sales store terminal.

S105, the target sales store terminal sends store address information to the carrier terminal under the condition of receiving the store address information; so that the transport provider transports the surplus goods of the non-target sales stores to the target sales stores according to the store address information.

S106, the target sales store terminal sends first order information to the target supplier terminal under the condition of receiving the first goods-free information; so that the target supplier supplies goods to the target sales store according to the first order information.

It should be understood that the targeted store terminal 100 is used to execute the contents in S101, S105, and S106, and the non-targeted store terminal 100 is used to execute the contents in S102-S104.

As shown in fig. 5, for another supply chain management method provided in the embodiment of the present application, the supply chain management method may further include the following steps:

s201, the target supplier terminal confirms whether goods are available according to the first order information.

S202, if no goods exist, the target supplier terminal sends second goods request information to the non-target supplier terminal.

S203, the non-target supplier terminal responds to the second goods request information, whether surplus goods exist is determined, and if the surplus goods exist, supplier address information is fed back to the target supplier terminal; and if no goods remain, feeding back second goods-free information to the target supplier terminal.

S204, the target supplier terminal sends second order information to the target producer terminal according to the second goods-free information; so that the target manufacturer supplies the target supplier according to the second order information.

It should be understood that the above-mentioned target provider terminal 200 is used to execute the contents in S201, S202, and S204, and the above-mentioned non-target provider terminal 200 is used to execute the contents in S203.

As shown in fig. 6, for another supply chain management method provided in the embodiment of the present application, the supply chain management method may further include the following steps:

s301, the target manufacturer terminal confirms whether corresponding parts exist according to the second order information.

S302, if no corresponding parts exist, the target manufacturer terminal sends first part request information to the non-target manufacturer terminal.

S303, the non-target manufacturer terminal responds to the first part request information, whether surplus goods exist is determined, and if the surplus goods exist, manufacturer address information is fed back to the target manufacturer terminal; and if no goods are left, feeding back third goods-free information to the target manufacturer terminal.

And S304, the target manufacturer terminal sends third order information to the target part supplier terminal according to the third non-good information.

S305, the target part supplier terminal confirms whether goods are available according to the third order information.

S306, if no goods exist, the target part supplier terminal sends second part request information to the non-target part supplier terminal.

S307, the non-target part supplier terminal responds to the second part request information, whether surplus goods exist is determined, and if the surplus goods exist, part supplier address information is fed back to the target part supplier terminal; and if no goods exist, feeding back fourth goods-free information to the target part supplier terminal.

It should be understood that the above-described target manufacturer terminal 400 is used to execute the contents of S301, S302, and S304, the non-target manufacturer terminal 400 is used to execute the contents of S303, the target parts supplier terminal 500 is used to execute the contents of S305 and S306, and the non-target parts supplier terminal 500 is used to execute the contents of S307.

In summary, the present application provides a supply chain management system and method, where a target store terminal sends first goods request information to a non-target store terminal when the target store is out of stock; the non-target sales store terminal responds to the first goods request information, whether the goods are left or not is confirmed, and if the goods are left, the address information of the stores is fed back to the target sales store terminal; if no goods remain, feeding back first goods-free information to the target sales store terminal; the target sales store terminal sends store address information to the carrier terminal under the condition of receiving the store address information; enabling the transport provider to transport the surplus goods of the non-target sales store to the target sales store according to the store address information; the target sales store terminal sends first order information to the target supplier terminal under the condition of receiving the first goods-free information; so that the target supplier supplies goods to the target sales store according to the first order information.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims

1. A supply chain management system, comprising a plurality of sales store terminals, a plurality of provider terminals and a carrier terminal, wherein the plurality of sales store terminals comprise a target sales store terminal and a non-target sales store terminal, and the target sales store terminal is in communication connection with the plurality of provider terminals, the carrier terminal and the non-target sales store terminal;

2. The supply chain management system of claim 1, further comprising an identity resolution system communicatively coupled to the targeted point-of-sale store terminal;

the target sales store terminal is used for sending address request information to the identification analysis system;

the identification resolving system is used for providing a first communication address of the non-target sales store terminal, second communication addresses of the plurality of supplier terminals and a third communication address of the carrier terminal to the target sales store terminal according to the address request information;

the target sales store is used for establishing communication connection with the plurality of supplier terminals, the carrier terminals and the non-target sales store terminals according to the first communication address, the second communication address and the third communication address.

3. The supply chain management system of claim 1, wherein the targeted point-of-sale terminal is further configured to derive a first predicted sales volume based on a first historical sales volume estimate;

and the target sales store terminal is also used for judging whether the out-of-stock condition occurs or not according to the first predicted sales volume.

4. The supply chain management system of claim 1, wherein the non-targeted outlet is further configured to derive a second predicted sales volume based on a second historical sales volume estimate;

the non-target sales store is further configured to determine whether there are excess goods based on the second forecasted sales volume.

5. The supply chain management system of claim 1, further comprising a plurality of producer terminals including a target producer terminal communicatively coupled to the plurality of supplier terminals;

the target supplier terminal is used for confirming whether goods exist or not according to the first order information;

if no goods exist, the target supplier terminal is also used for sending second goods request information to the non-target supplier terminal;

the non-target supplier terminal is used for responding to the second cargo request information, confirming whether excess cargo exists or not, and feeding back supplier address information to the target supplier terminal if excess cargo exists; if no goods remain, feeding back second goods-free information to the target supplier terminal;

the target supplier terminal is also used for sending second order information to the target producer terminal according to the second goods-free information; and enabling the target manufacturer to supply to the target provider according to the second order information.

6. The supply chain management system of claim 5, further comprising a plurality of parts supplier terminals, the plurality of manufacturer terminals further comprising non-target manufacturer terminals, the plurality of parts supplier terminals comprising target parts supplier terminals and non-target parts supplier terminals, the target parts supplier terminals being communicatively coupled to both the plurality of manufacturer terminals and the non-target parts supplier terminals, the target manufacturer terminals being communicatively coupled to the non-target manufacturer terminals;

the target manufacturer terminal is used for confirming whether corresponding parts exist according to the second order information;

if no corresponding part exists, the target manufacturer terminal is also used for sending first part request information to the non-target manufacturer terminal;

the non-target manufacturer terminal is used for responding to the first part request information, confirming whether surplus goods exist or not, and if the surplus goods exist, feeding back manufacturer address information to the target manufacturer terminal; if no goods remain, feeding back third goods-free information to the target manufacturer terminal;

the target manufacturer terminal is further used for sending third order information to the target part supplier terminal according to the third goods-free information;

the target part supplier terminal is used for confirming whether goods exist or not according to the third order information;

if no goods exist, the target part supplier terminal is also used for sending second part request information to the non-target part supplier terminal;

the non-target part supplier terminal is used for responding to the second part request information, confirming whether surplus goods exist or not, and feeding back part supplier address information to the target part supplier terminal if the surplus goods exist; and if no goods exist, feeding back fourth goods-free information to the target part supplier terminal.

7. The supply chain management system according to claim 6, further comprising an identification resolution system and a plurality of digital object interoperability services, the plurality of sales outlet terminals, the plurality of supplier terminals, the carrier terminal, the plurality of producer terminals, and the plurality of part supplier terminals being integrated with the digital object interoperability services, respectively;

the plurality of digital object interoperation services are in communication connection with the identification parsing system, the target sales shop terminal establishes communication connection with the plurality of supplier terminals, the carrier terminal and the non-target sales shop terminal based on the corresponding digital object interoperation services, the target producer terminal establishes communication connection with the plurality of supplier terminals and the non-target producer terminal based on the corresponding digital object interoperation services, and the target part supplier terminal establishes communication connection with the plurality of producer terminals and the non-target part supplier terminal based on the corresponding digital object interoperation services.

8. A supply chain management method, applied to a supply chain management system according to any one of claims 1 to 7, the method comprising:

if no goods remain, the non-target sales store terminal feeds back first goods-free information to the target sales store terminal;

9. The supply chain management method according to claim 8, wherein the target sales outlet terminal, upon receiving the first shipment information, after the step of transmitting first order information to a target supplier terminal, further comprises:

the target supplier terminal confirms whether goods exist or not according to the first order information;

if no goods exist, the target supplier terminal sends second goods request information to the non-target supplier terminal;

the non-target supplier terminal responds to the second goods request information to confirm whether surplus goods exist or not, and if the surplus goods exist, supplier address information is fed back to the target supplier terminal; if no goods remain, feeding back second goods-free information to the target supplier terminal;

the target supplier terminal sends second order information to the target producer terminal according to the second goods-free information; and enabling the target manufacturer to supply to the target provider according to the second order information.

10. The supply chain management method according to claim 9, wherein after the step of the target supplier terminal sending second order information to the target producer terminal according to the second non-good information, the method further comprises:

the target manufacturer terminal confirms whether corresponding parts exist or not according to the second order information;

if no corresponding part exists, the target manufacturer terminal sends first part request information to the non-target manufacturer terminal;

the non-target manufacturer terminal responds to the first part request information, whether surplus goods exist is determined, and if the surplus goods exist, manufacturer address information is fed back to the target manufacturer terminal; if no goods remain, feeding back third goods-free information to the target manufacturer terminal;

the target manufacturer terminal sends third order information to a target part supplier terminal according to the third goods-free information;

the target part supplier terminal confirms whether goods exist or not according to the third order information;

if no goods exist, the target part supplier terminal sends second part request information to a non-target part supplier terminal;

the non-target part supplier terminal responds to the second part request information, whether surplus goods exist is determined, and if the surplus goods exist, part supplier address information is fed back to the target part supplier terminal; and if no goods exist, feeding back fourth goods-free information to the target part supplier terminal.