CN113191713A - Warehouse out-of-stock transferring method, device, equipment and storage medium - Google Patents

Abstract

The invention relates to the field of logistics distribution, and discloses a warehouse out-of-stock transferring method, device, equipment and storage medium, wherein the method comprises the following steps: the method comprises the steps of obtaining a user order and order data corresponding to the user order, wherein the order data comprise a receiving address, merchant information and goods quantity; acquiring a warehouse information table corresponding to merchant information, and determining an original delivery warehouse corresponding to a user order according to a receiving address and the warehouse information table; judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity or not; if yes, determining a candidate warehouse according to the priority table of the backorder warehouse; and selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse. The method reasonably selects the delivery warehouse when the order of the user is out of stock by utilizing the warehouse area relationship and the delivery warehouse relationship of the out-of-stock priority, thereby improving the utilization rate of the warehouse by a merchant, avoiding over-storage or out-of-stock, reducing the occupied space of the inventory and reducing the total expense of the inventory.

Description

Warehouse out-of-stock transferring method, device, equipment and storage medium

Technical Field

The invention relates to the field of logistics distribution, in particular to a warehouse out-of-stock transferring method, device, equipment and storage medium.

Background

With the rapid development of electronic commerce, more and more merchants cooperate with third-party warehousing in order to enhance the stock turnover efficiency. After the merchant receives the order of the goods to be distributed of the buyer on the online shopping platform, the third party warehouse carries out delivery according to the receiving address of the buyer.

At present, a lot of existing warehouse-allocation integrated management systems for third-party warehousing generally use a mode of specifying warehouse codes to place orders, so that the difficulty of warehouse management of an upstream ERP (Enterprise Resource Planning) system or a plurality of client own platforms is increased, and a client cannot have a current inventory to flexibly control and deliver warehouse goods. According to the scenario that the merchants issue the commodities in the appointed warehouses, the merchants need to stock in each warehouse, and once some warehouses are out of stock, consumers in corresponding areas cannot purchase the commodities, so that the experience feeling is not good enough, and the dispatching of the commodities in the warehouses is not reasonable.

Disclosure of Invention

The main purpose of this application is to solve current storehouse and join in marriage the technical problem that integrated management can't change the warehouse in a flexible way when the warehouse is out of stock.

The invention provides a warehouse out-of-stock transferring method in a first aspect, which comprises the following steps: the method comprises the steps of obtaining a user order and order data corresponding to the user order, wherein the order data comprise a receiving address, merchant information and goods quantity; acquiring a warehouse information table corresponding to the merchant information, and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table; judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity; if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table; and selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse.

Optionally, in a first implementation manner of the first aspect of the present invention, before the obtaining the user order and the order data corresponding to the user order, the method further includes: acquiring a warehouse information table input by a merchant, wherein the warehouse information table comprises merchant warehouse codes and warehouse address information corresponding to various warehouses; matching the warehouse address information with a preset address coding table to obtain an address code corresponding to the warehouse address information; and generating an association relation table of the merchant according to the corresponding relation between the warehouse address information and the address code and the merchant warehouse code respectively.

Optionally, in a second implementation manner of the first aspect of the present invention, the obtaining a warehouse information table corresponding to the merchant information, and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table includes: acquiring a warehouse information table corresponding to the merchant information; determining the address code of the user order according to the receiving address; and matching the warehouse information table according to the incidence relation table and the address code of the user order to obtain an original delivery warehouse corresponding to the user order.

Optionally, in a third implementation manner of the first aspect of the present invention, the determining, according to a preset shortage warehouse priority table, a candidate warehouse corresponding to the user order includes: determining candidate priorities of all warehouses of the merchants according to the shortage warehouse priority table; calculating the distribution cost of each warehouse for distributing the user order according to the receiving address and the warehouse address information of each warehouse of the merchant; calculating the order value of each warehouse for distributing the order according to the candidate priority and the weight of the distribution cost; and sequencing all warehouses of the merchants from large to small according to the sequence values to obtain a sequence, and taking the warehouse with the largest sequence value in the sequence as a candidate warehouse corresponding to the user order.

Optionally, in a fourth implementation manner of the first aspect of the present invention, the selecting, according to the selected candidate warehouse, a corresponding out-of-stock transfer policy includes: judging whether the inventory quantity corresponding to the user order in the candidate warehouse is smaller than the goods quantity; if the stock quantity corresponding to the user order in the candidate warehouse is smaller than the goods quantity, judging whether all warehouses in the shortage warehouse priority table are traversed or not; if all the warehouses in the short-order warehouse priority table are not traversed, returning to the step of determining the candidate warehouse corresponding to the user order according to the preset short-order warehouse priority table until all the warehouses in the short-order warehouse priority table or the stock quantity corresponding to the user order in the candidate warehouse is traversed and is not less than the goods quantity; if the inventory quantity corresponding to the user order in the candidate warehouse is not less than the goods quantity, calling a delivery confirmation interface, and entering a delivery and delivery flow of the user order; if all the warehouses in the shortage warehouse priority table are traversed, generating shortage warning information; and sending the out-of-stock warning information to the user to prompt the user that the order cannot be placed.

Optionally, in a fifth implementation manner of the first aspect of the present invention, after the sending the out-of-stock alarm message to the user to prompt that the user cannot place an order, the method further includes: obtaining order confirmation information of a user and confirming the type of the order confirmation information, wherein the type comprises order cancellation success and order cancellation failure; if the type of the order determining information is that the order cancellation fails, generating replenishment detection for the original delivery warehouse; when goods corresponding to the user order are replenished to the original delivery warehouse, the replenishment detection is triggered, and whether the current inventory quantity corresponding to the user order in the original delivery warehouse is larger than the goods quantity or not is judged; if yes, a delivery confirmation interface is called, and a dispatching delivery flow of the user order is entered.

Optionally, in a sixth implementation manner of the first aspect of the present invention, after the replenishment of the goods corresponding to the user order to the original delivery warehouse, the method further includes: acquiring the replenishment quantity of the goods corresponding to the user order; acquiring the original inventory quantity corresponding to the user order in the original delivery warehouse; and calculating the current inventory quantity corresponding to the user order in the original delivery warehouse according to the original inventory quantity and the replenishment quantity.

The second aspect of the invention provides a warehouse out-of-stock transferring device, which comprises: the order acquisition module is used for acquiring a user order and order data corresponding to the user order, wherein the order data comprises a receiving address, merchant information and the quantity of goods; the original warehouse determining module is used for acquiring a warehouse information table corresponding to the merchant information and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table; the judging module is used for judging whether the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity; a candidate warehouse determining module, configured to determine, according to a preset shortage warehouse priority table, a candidate warehouse corresponding to the user order when the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the quantity of the goods; and the stock shortage transfer module is used for selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse.

Optionally, in a first implementation manner of the second aspect of the present invention, the warehouse out-of-stock transfer device further includes a relationship table generating module, where the relationship table generating module is configured to: acquiring a warehouse information table input by a merchant, wherein the warehouse information table comprises merchant warehouse codes and warehouse address information corresponding to various warehouses; matching the warehouse address information with a preset address coding table to obtain an address code corresponding to the warehouse address information; and generating an association relation table of the merchant according to the corresponding relation between the warehouse address information and the address code and the merchant warehouse code respectively.

Optionally, in a second implementation manner of the second aspect of the present invention, the raw warehouse determination module is specifically configured to: acquiring a warehouse information table corresponding to the merchant information; determining the address code of the user order according to the receiving address; and matching the warehouse information table according to the incidence relation table and the address code of the user order to obtain an original delivery warehouse corresponding to the user order.

Optionally, in a third implementation manner of the second aspect of the present invention, the candidate warehouse determination module is specifically configured to: determining candidate priorities of all warehouses of the merchants according to the shortage warehouse priority table; calculating the distribution cost of each warehouse for distributing the user order according to the receiving address and the warehouse address information of each warehouse of the merchant; calculating the order value of each warehouse for distributing the order according to the candidate priority and the weight of the distribution cost; and sequencing all warehouses of the merchants from large to small according to the sequence values to obtain a sequence, and taking the warehouse with the largest sequence value in the sequence as a candidate warehouse corresponding to the user order.

Optionally, in a fourth implementation manner of the second aspect of the present invention, the backorder transfer module is configured to: judging whether the inventory quantity corresponding to the user order in the candidate warehouse is smaller than the goods quantity; if the stock quantity corresponding to the user order in the candidate warehouse is smaller than the goods quantity, judging whether all warehouses in the shortage warehouse priority table are traversed or not; if all the warehouses in the short-order warehouse priority table are not traversed, returning to the step of determining the candidate warehouse corresponding to the user order according to the preset short-order warehouse priority table until all the warehouses in the short-order warehouse priority table or the stock quantity corresponding to the user order in the candidate warehouse is traversed and is not less than the goods quantity; if the inventory quantity corresponding to the user order in the candidate warehouse is not less than the goods quantity, calling a delivery confirmation interface, and entering a delivery and delivery flow of the user order; if all the warehouses in the shortage warehouse priority table are traversed, generating shortage warning information; and sending the out-of-stock warning information to the user to prompt the user that the order cannot be placed.

Optionally, in a fifth implementation manner of the second aspect of the present invention, the warehouse out-of-stock transfer device further includes a replenishment module, where the replenishment module is specifically configured to: obtaining order confirmation information of a user and confirming the type of the order confirmation information, wherein the type comprises order cancellation success and order cancellation failure; if the type of the order determining information is that the order cancellation fails, generating replenishment detection for the original delivery warehouse; when goods corresponding to the user order are replenished to the original delivery warehouse, the replenishment detection is triggered, and whether the current inventory quantity corresponding to the user order in the original delivery warehouse is larger than the goods quantity or not is judged; if yes, a delivery confirmation interface is called, and a dispatching delivery flow of the user order is entered.

Optionally, in a sixth implementation manner of the second aspect of the present invention, the restocking module is further specifically configured to: acquiring the replenishment quantity of the goods corresponding to the user order; acquiring the original inventory quantity corresponding to the user order in the original delivery warehouse; and calculating the current inventory quantity corresponding to the user order in the original delivery warehouse according to the original inventory quantity and the replenishment quantity.

The third aspect of the invention provides warehouse out-of-stock transfer equipment, which comprises: a memory having instructions stored therein and at least one processor, the memory and the at least one processor interconnected by a line; the at least one processor invokes the instructions in the memory to cause the warehouse out-of-stock transfer equipment to perform the steps of the warehouse out-of-stock transfer method described above.

A fourth aspect of the present invention provides a computer-readable storage medium having stored therein instructions, which when run on a computer, cause the computer to perform the steps of the warehouse out-of-stock diversion method described above.

According to the technical scheme, a user order and order data corresponding to the user order are obtained, wherein the order data comprise a receiving address, merchant information and the number of goods; acquiring a warehouse information table corresponding to the merchant information, and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table; judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity; if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table; and selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse. The method reasonably selects the delivery warehouse when the user order is out of stock by utilizing the warehouse area relationship and the out-of-stock priority delivery warehouse relationship, and reasonably selects the delivery warehouse when the user order is out of stock by utilizing the warehouse area relationship and the out-of-stock priority delivery warehouse relationship, so that the utilization rate of a merchant on the warehouse is improved, the excess storage or the out-of-stock is avoided, the occupation of the inventory space is reduced, the total cost of the merchant on the warehouse is reduced, the utilization rate of the merchant on the warehouse is improved, the excess storage or the out-of-stock is avoided, the occupation of the inventory space is reduced, and the total cost of the inventory is reduced.

Drawings

Fig. 1 is a schematic diagram of a first embodiment of a warehouse out-of-stock transfer method according to an embodiment of the invention;

fig. 2 is a schematic diagram of a second embodiment of the warehouse out-of-stock transfer method according to the embodiment of the invention;

fig. 3 is a schematic diagram of a third embodiment of the warehouse out-of-stock transfer method according to the embodiment of the invention;

fig. 4 is a schematic diagram of a fourth embodiment of the warehouse out-of-stock transfer method according to the embodiment of the invention;

fig. 5 is a schematic diagram of a fifth embodiment of the warehouse out-of-stock transfer method according to the embodiment of the invention;

fig. 6 is a schematic diagram of an embodiment of the warehouse out-of-stock transfer device according to an embodiment of the invention;

fig. 7 is a schematic view of another embodiment of the warehouse out-of-stock transfer device according to the embodiment of the invention;

fig. 8 is a schematic diagram of an embodiment of the warehouse out-of-stock transfer device according to an embodiment of the invention.

Detailed Description

According to the technical scheme, a user order and order data corresponding to the user order are obtained, wherein the order data comprise a receiving address, merchant information and the number of goods; acquiring a warehouse information table corresponding to the merchant information, and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table; judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity; if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table; and selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse. The method reasonably selects the delivery warehouse when the user order is out of stock by utilizing the warehouse area relationship and the out-of-stock priority delivery warehouse relationship, and reasonably selects the delivery warehouse when the user order is out of stock by utilizing the warehouse area relationship and the out-of-stock priority delivery warehouse relationship, so that the utilization rate of a merchant on the warehouse is improved, the excess storage or the out-of-stock is avoided, the occupation of the inventory space is reduced, the total cost of the merchant on the warehouse is reduced, the utilization rate of the merchant on the warehouse is improved, the excess storage or the out-of-stock is avoided, the occupation of the inventory space is reduced, and the total cost of the inventory is reduced.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," or "having," and any variations thereof, are intended to cover non-exclusive inclusions, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

For the sake of understanding, the following describes a specific flow of an embodiment of the present invention, and referring to fig. 1, a first embodiment of a warehouse out-of-stock transferring method according to an embodiment of the present invention includes:

101. the method comprises the steps of obtaining a user order and order data corresponding to the user order, wherein the order data comprise a receiving address, merchant information and goods quantity;

it is to be understood that the executing subject of the present invention may be a warehouse out-of-stock transfer device, and may also be a terminal or a server, which is not limited herein. The embodiment of the present invention is described by taking a server as an execution subject.

In this embodiment, a user purchases a commodity on an e-commerce platform to generate a corresponding user order, the user order includes a receiving address of the user, the receiving address may be an address which is filled in by the user in advance, or an address obtained by positioning the user, and may be located in the province and city county where the user is located, the order data further includes commodity data of the commodity purchased by the user, the commodity data includes a name, a brand and partial commodity parameters, such as weight, volume, quantity, and the like, the commodity quantity in the commodity data is the commodity quantity in the order data, and the commodity data is sent to a warehouse management server to enable the commodity in the warehouse to be positioned.

In this embodiment, the merchant information includes a warehouse information table and an out-of-stock warehouse priority table, where the warehouse information table includes information such as a warehouse name, a warehouse code, and a warehouse address, and the out-of-stock warehouse priority table includes information such as a warehouse name, a warehouse code, a priority identifier, and an out-of-stock candidate warehouse code.

102. Acquiring a warehouse information table corresponding to merchant information, and determining an original delivery warehouse corresponding to a user order according to a receiving address and the warehouse information table;

in this embodiment, the warehouse information table includes information such as warehouse name, warehouse code, warehouse address, etc., the system obtains the warehouse information table and the short-of-stock warehouse priority table input by the merchant in advance, and the warehouse code in the warehouse information table is associated with the preset code of the national province and city to obtain an association relation table, wherein, the regional coverage can be performed according to the distribution capability condition of the warehouse, one warehouse code is associated with the address codes of a plurality of national provinces and cities, for example, for a certain warehouse, the distribution can cover a plurality of urban areas in a certain province, namely, the warehouse code of the warehouse is associated with the address codes of a plurality of urban areas of the province, and through the association relation table, after the receiving address of the user is determined, the corresponding warehouse code is determined through the address code of the province where the receiving address is located, and the original delivery warehouse corresponding to the user order is determined through the determined warehouse code.

103. Judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity or not;

in this embodiment, after the original delivery warehouse is determined, the positioning of the commodity is performed through the parameters in the commodity data in the order data, the stock quantity of the commodity in the original delivery warehouse is determined, and the stock quantity and the quantity of the commodity required by the user order are compared.

104. If the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table;

in this embodiment, when the stock quantity corresponding to the user order in the original delivery warehouse is less than the quantity of the goods, it indicates that the quantity of the goods in the original delivery warehouse cannot meet the demand of the user order, and the out-of-stock transfer is required;

in this embodiment, in order to improve the delivery efficiency, that is, the goods pushing efficiency, priorities may be set for different warehouses in advance, the higher the priority represents the higher the delivery efficiency, and in the case that the original delivery warehouse is out of stock, a warehouse with a high priority is preferentially selected from the priority table of the out-of-stock warehouse as a candidate warehouse, and the user order is completed through the candidate warehouse.

105. And selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse.

In this embodiment, if the candidate warehouse determined by the shortage warehouse priority table may have the same shortage as the original delivery warehouse, the goods corresponding to the user order in the candidate warehouse need to be determined by the goods data, the stock quantity of the goods in the candidate warehouse is obtained, the stock quantity of the goods in the candidate warehouse and the quantity of the goods required by the user order are compared, different shortage transfer strategies are performed according to the comparison result, if the candidate warehouse is still short, the candidate warehouse is re-determined from the shortage warehouse priority table until all the warehouses in the shortage warehouse priority table are traversed, and if the candidate warehouse is not short, the delivery confirmation interface is called by the candidate warehouse to enter the order delivery flow of the user order.

In this embodiment, a user order and order data corresponding to the user order are obtained, where the order data includes a receiving address, merchant information, and a quantity of goods; acquiring a warehouse information table corresponding to the merchant information, and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table; judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity; if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table; and selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse. The method reasonably selects the delivery warehouse when the user order is out of stock by utilizing the warehouse area relationship and the out-of-stock priority delivery warehouse relationship, and reasonably selects the delivery warehouse when the user order is out of stock by utilizing the warehouse area relationship and the out-of-stock priority delivery warehouse relationship, so that the utilization rate of a merchant on the warehouse is improved, the excess storage or the out-of-stock is avoided, the occupation of the inventory space is reduced, the total cost of the merchant on the warehouse is reduced, the utilization rate of the merchant on the warehouse is improved, the excess storage or the out-of-stock is avoided, the occupation of the inventory space is reduced, and the total cost of the inventory is reduced.

Referring to fig. 2, a second embodiment of the warehouse out-of-stock transferring method according to the embodiment of the present invention includes:

201. acquiring a warehouse information table input by a merchant, wherein the warehouse information table comprises merchant warehouse codes and warehouse address information corresponding to all warehouses;

in this embodiment, merchants cooperate with third-party warehouses, different merchants fill in warehouse information tables according to their own conditions, and input the warehouse information tables into a system of the third-party warehouses for summarization, each merchant has a corresponding warehouse information table, and warehouse codes in each warehouse information table can be customized or the third-party warehouses are summarized in a unified manner, which is not limited by the invention.

202. Matching the warehouse address information with a preset address coding table to obtain an address code corresponding to the warehouse address information;

in this embodiment, the preset address coding table includes addresses of national provinces and cities and corresponding address codes, the province of the address coding table corresponding to the warehouse address is determined after the province of the warehouse address is paired with the province of the national address in parallel through matching the warehouse address information with the addresses of the national provinces and cities in the address coding table, the city governed by the province in the address coding table is paired with the city of the warehouse address information, the province of the address coding table corresponding to the warehouse address information is finally obtained, and the corresponding address code is determined through the province of the corresponding address coding table.

203. Generating an association relation table of the merchant according to the corresponding relation between the warehouse address information and the address code and the merchant warehouse code respectively;

in this embodiment, if there may be a plurality of warehouses warehoused by the merchant in the third-party warehouse, the corresponding relationships between the warehouse codes and the address codes of the plurality of warehouses are summarized, and a table is generated to obtain the association relationship table.

204. The method comprises the steps of obtaining a user order and order data corresponding to the user order, wherein the order data comprise a receiving address, merchant information and goods quantity;

step 204 in this embodiment is similar to step 101 in the first embodiment, and is not described here again.

205. Acquiring a warehouse information table corresponding to merchant information;

in this embodiment, merchants with different third-party warehousing services fill in a warehouse information table in advance according to their own conditions, and input the warehouse information table into a system of third-party warehousing for summarizing, and when a merchant system inputs a corresponding user order, the third-party warehousing acquires the corresponding warehouse information table according to merchant information to complete subsequent association operations.

206. Determining an address code of a user order according to the receiving address;

in this embodiment, the delivery address and the preset address code table are paired, so that the address code corresponding to the delivery address can be obtained.

207. Matching an original delivery warehouse corresponding to the user order according to the incidence relation table and the address code of the user order;

in this embodiment, the association relationship table includes an association relationship between an address code and a warehouse code, and the warehouse code associated with the address code is determined through the address code and the association relationship table of the user order, and then the corresponding warehouse is determined as an original delivery warehouse through the determined warehouse code.

208. Judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity or not;

209. if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table;

210. and selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse.

The steps 208-210 in the present embodiment are similar to the steps 103-105 in the first embodiment, and are not described herein again.

This embodiment describes in detail a process of obtaining a warehouse information table corresponding to the merchant information, determining an original shipping warehouse corresponding to a user order according to a receiving address and the warehouse information table, and obtaining a warehouse information table input by a merchant, where the warehouse information table includes merchant warehouse codes and warehouse address information corresponding to each warehouse; matching the warehouse address information with a preset address coding table to obtain an address code corresponding to the warehouse address information; and generating an association relation table of the merchant according to the corresponding relation between the warehouse address information and the address code and the merchant warehouse code respectively. According to the method, the incidence relation table of the address codes and the warehouse codes is generated by acquiring the warehouse information table of the merchant in advance, and after the merchant generates the user order, the original delivery warehouse corresponding to the user order is quickly matched through the incidence relation table, so that the delivery efficiency is improved.

Referring to fig. 3, a third embodiment of the warehouse out-of-stock transferring method according to the embodiment of the present invention includes:

301. the method comprises the steps of obtaining a user order and order data corresponding to the user order, wherein the order data comprise a receiving address, merchant information and goods quantity;

302. acquiring a warehouse information table corresponding to merchant information, and determining an original delivery warehouse corresponding to a user order according to a receiving address and the warehouse information table;

303. judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity or not;

the steps 301-303 in the present embodiment are similar to the steps 101-103 in the first embodiment, and are not described herein again.

304. If yes, determining the candidate priority of each warehouse of the merchant according to the shortage warehouse priority table;

in this embodiment, in order to improve the delivery efficiency, that is, the goods pushing efficiency, priorities may be set for different warehouses in advance, where a higher priority represents a higher delivery efficiency, and in the case that the original delivery warehouse is out of stock, a warehouse with a higher priority is preferentially selected from the priority table of the out-of-stock warehouse as the candidate warehouse.

305. Calculating the distribution cost of each warehouse for distributing the user order according to the receiving address and the warehouse address information of each warehouse of the merchant;

306. calculating the order value of each warehouse delivery order according to the candidate priority and the weight of the delivery cost;

307. sorting all warehouses of a merchant from large to small according to the order values to obtain order sequences, and taking the warehouse with the largest order value in the order sequences as a candidate warehouse corresponding to the user order;

in this embodiment, since the warehouse priorities in the shortage warehouse priority table are set in advance, and the candidate warehouses are prioritized according to the delivery efficiency of the warehouse, there may be a case where the candidate warehouse is far from the harvest address, which may result in an increase in delivery cost and a decrease in delivery speed, so that a suitable candidate warehouse may be obtained by obtaining the delivery cost of delivering goods from the candidate warehouse to the candidate warehouse and by setting weights in advance and performing comprehensive calculation.

In this embodiment, the delivery cost of each historical order in the candidate warehouse may be determined according to the historical order data, the delivery cost of each historical order in the candidate warehouse may be determined according to the delivery cost of each historical order in the candidate warehouse, and the user order information, by obtaining historical order data, where the historical order data includes the volume, weight, and destination of the goods in the historical orders.

308. And selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse.

On the basis of the previous embodiment, the process of determining the candidate warehouse corresponding to the user order according to the preset shortage warehouse priority table is described in detail, and the candidate priority of each warehouse of the merchant is determined according to the shortage warehouse priority table; calculating the distribution cost of each warehouse for distributing the user order according to the receiving address and the warehouse address information of each warehouse of the merchant; calculating the order value of each warehouse delivery order according to the candidate priority and the weight of the delivery cost; and sequencing all warehouses of the merchants from large to small according to the sequence values to obtain a sequence, and taking the warehouse with the largest sequence value in the sequence as a candidate warehouse corresponding to the user order. According to the method, the suitable warehouse can be screened out as the candidate warehouse by setting the candidate priority and combining the distribution cost, the distribution efficiency is improved, and the distribution cost is saved.

Referring to fig. 4, a fourth embodiment of the warehouse out-of-stock transferring method according to the embodiment of the present invention includes:

401. the method comprises the steps of obtaining a user order and order data corresponding to the user order, wherein the order data comprise a receiving address, merchant information and goods quantity;

402. acquiring a warehouse information table corresponding to merchant information, and determining an original delivery warehouse corresponding to a user order according to a receiving address and the warehouse information table;

403. judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity or not;

404. if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table;

the steps 401 and 404 in this embodiment are similar to the steps 101 and 104 in the first embodiment, and are not described herein again.

405. Judging whether the inventory quantity corresponding to the user order in the candidate warehouse is less than the goods quantity;

406. if the stock quantity corresponding to the user order in the candidate warehouse is less than the goods quantity, judging whether all the warehouses in the priority list of the backorder warehouse are traversed;

407. if all the warehouses in the shortage warehouse priority table are not traversed, the step of determining the candidate warehouses corresponding to the user orders according to the preset shortage warehouse priority table is returned until all the warehouses in the shortage warehouse priority table or the stock quantity corresponding to the user orders in the candidate warehouses is traversed and is not less than the goods quantity;

in this embodiment, the candidate warehouse is selected from the priority table of the shortage warehouse, if the stock quantity in the selected candidate warehouse cannot meet the order requirement, the candidate warehouse is reselected from the priority table of the shortage warehouse, and so on, until the last warehouse in the priority table of the shortage warehouse is judged to be finished, if the warehouses are all in shortage, an alarm message is generated to notify the upstream that the warehouse cannot place the order due to shortage.

408. And if the inventory quantity corresponding to the user order in the candidate warehouse is not less than the goods quantity, calling a delivery confirmation interface, and entering a delivery and delivery flow of the user order.

In this embodiment, if the number of stocks in the candidate warehouse is not less than the number of goods when the warehouse in the shortage priority table is traversed, the order is placed again, the identifier of the shortage order is updated, and the delivery confirmation interface is called to enter the order dispatching and delivery flow of the user order.

409. If all the warehouses in the priority table of the backorder warehouse are traversed, generating backorder warning information;

410. and sending the out-of-stock alarm information to the user to prompt the user that the order cannot be placed.

On the basis of the foregoing embodiment, the process of selecting the corresponding backorder transfer strategy according to the selected candidate warehouse is described in detail in this embodiment, and the candidate warehouse meeting the conditions is selected by traversing the warehouses in the priority table of the backorder warehouse, so that the delivery efficiency is improved, and the delivery cost is saved.

Referring to fig. 5, a fifth embodiment of the method for transferring the out-of-stock warehouse according to the embodiment of the present invention includes:

501. the method comprises the steps of obtaining a user order and order data corresponding to the user order, wherein the order data comprise a receiving address, merchant information and goods quantity;

502. acquiring a warehouse information table corresponding to merchant information, and determining an original delivery warehouse corresponding to a user order according to a receiving address and the warehouse information table;

503. judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity or not;

504. if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table;

505. judging whether the inventory quantity corresponding to the user order in the candidate warehouse is less than the goods quantity;

506. if the stock quantity corresponding to the user order in the candidate warehouse is less than the goods quantity, judging whether all the warehouses in the priority list of the backorder warehouse are traversed;

507. if all the warehouses in the shortage warehouse priority table are not traversed, the step of determining the candidate warehouses corresponding to the user orders according to the preset shortage warehouse priority table is returned until all the warehouses in the shortage warehouse priority table or the stock quantity corresponding to the user orders in the candidate warehouses is traversed and is not less than the goods quantity;

508. if the inventory quantity corresponding to the user order in the candidate warehouse is not less than the goods quantity, a delivery confirmation interface is called, and a delivery and delivery flow of the user order is entered;

509. if all the warehouses in the priority table of the backorder warehouse are traversed, generating backorder warning information;

510. sending out the out-of-stock alarm information to a user to prompt the user that the order cannot be placed;

the steps 501-510 in the present embodiment are similar to the steps 401-410 in the previous embodiment, and are not described herein again.

511. Acquiring order confirmation information of a user and determining the type of the order confirmation information;

in this embodiment, the user is notified to cancel the order by generating the out-of-stock alarm information, the user may choose to cancel the order of the user or not cancel the order, if the user chooses not to cancel the order, an order cancellation failure information is generated, the replenishment of the goods in the original shipping warehouse is waited, and the replenishment detection is performed on the original shipping warehouse in real time.

512. If the type of the order determining information is that the order cancellation fails, generating replenishment detection for the original delivery warehouse;

513. when goods corresponding to the user order are replenished to the original delivery warehouse, replenishment detection is triggered, and whether the current inventory quantity corresponding to the user order in the current original delivery warehouse is larger than the goods quantity or not is judged;

in this embodiment, when a goods corresponding to a user order is replenished to an original delivery warehouse, the replenishment quantity of the goods corresponding to the user order is acquired; acquiring the original inventory quantity corresponding to the user order in the original delivery warehouse; and calculating the current inventory quantity 514 corresponding to the user order in the original delivery warehouse according to the original inventory quantity and the replenishment quantity, and calling a delivery confirmation interface to enter a delivery and delivery flow of the user order if the current inventory quantity is the current inventory quantity.

On the basis of the previous embodiment, the method and the device for determining the type of the order confirmation information have the advantages that the process that a user does not cancel the order of the user and waits for warehouse replenishment is added, the order confirmation information of the user is obtained, and the type comprises order cancellation success and order cancellation failure; if the type of the order determining information is that the order cancellation fails, generating replenishment detection for the original delivery warehouse; when goods corresponding to the user order are replenished to the original delivery warehouse, replenishment detection is triggered, and whether the current inventory quantity corresponding to the user order in the current original delivery warehouse is larger than the goods quantity or not is judged; if yes, a delivery confirmation interface is called, and a delivery and delivery flow of the user order is entered. By the method, the user requirements are met, and the user experience is improved.

In the above description of the warehouse out-of-stock transfer method in the embodiment of the present invention, referring to fig. 6, the warehouse out-of-stock transfer device in the embodiment of the present invention is described below, and an embodiment of the warehouse out-of-stock transfer device in the embodiment of the present invention includes:

the order obtaining module 601 is configured to obtain a user order and order data corresponding to the user order, where the order data includes a receiving address, merchant information, and a quantity of goods; an original warehouse determining module 602, configured to obtain a warehouse information table corresponding to the merchant information, and determine an original shipping warehouse corresponding to the user order according to the receiving address and the warehouse information table; a judging module 603, configured to judge whether an inventory quantity corresponding to the user order in the original shipping warehouse is smaller than the quantity of the goods; a candidate warehouse determining module 604, configured to determine, according to a preset shortage warehouse priority table, a candidate warehouse corresponding to the user order when the stock quantity corresponding to the user order in the original shipping warehouse is smaller than the goods quantity; and the backorder transfer module 605 is configured to select a corresponding backorder transfer strategy according to the selected candidate warehouse.

In the embodiment of the invention, the warehouse out-of-stock transfer device runs the warehouse out-of-stock transfer method, and the device obtains a user order and order data corresponding to the user order, wherein the order data comprises a receiving address, merchant information and the quantity of goods; acquiring a warehouse information table corresponding to the merchant information, and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table; judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity; if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table; and selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse. The method reasonably selects the delivery warehouse when the user order is out of stock by utilizing the warehouse area relationship and the out-of-stock priority delivery warehouse relationship, and reasonably selects the delivery warehouse when the user order is out of stock by utilizing the warehouse area relationship and the out-of-stock priority delivery warehouse relationship, so that the utilization rate of a merchant on the warehouse is improved, the excess storage or the out-of-stock is avoided, the occupation of the inventory space is reduced, the total cost of the merchant on the warehouse is reduced, the utilization rate of the merchant on the warehouse is improved, the excess storage or the out-of-stock is avoided, the occupation of the inventory space is reduced, and the total cost of the inventory is reduced.

Referring to fig. 7, a second embodiment of the bin stock out-of-stock transfer apparatus according to the embodiment of the present invention includes:

the order obtaining module 601 is configured to obtain a user order and order data corresponding to the user order, where the order data includes a receiving address, merchant information, and a quantity of goods; an original warehouse determining module 602, configured to obtain a warehouse information table corresponding to the merchant information, and determine an original shipping warehouse corresponding to the user order according to the receiving address and the warehouse information table; a judging module 603, configured to judge whether an inventory quantity corresponding to the user order in the original shipping warehouse is smaller than the quantity of the goods; a candidate warehouse determining module 604, configured to determine, according to a preset shortage warehouse priority table, a candidate warehouse corresponding to the user order when the stock quantity corresponding to the user order in the original shipping warehouse is smaller than the goods quantity; and the backorder transfer module 605 is configured to select a corresponding backorder transfer strategy according to the selected candidate warehouse.

The warehouse out-of-stock transfer device further comprises a relationship table generation module 606, wherein the relationship table generation module 606 is configured to: acquiring a warehouse information table input by a merchant, wherein the warehouse information table comprises merchant warehouse codes and warehouse address information corresponding to various warehouses; matching the warehouse address information with a preset address coding table to obtain an address code corresponding to the warehouse address information; and generating an association relation table of the merchant according to the corresponding relation between the warehouse address information and the address code and the merchant warehouse code respectively.

Optionally, the raw warehouse determination module 602 is specifically configured to: acquiring a warehouse information table corresponding to the merchant information; determining the address code of the user order according to the receiving address; and matching the warehouse information table according to the incidence relation table and the address code of the user order to obtain an original delivery warehouse corresponding to the user order.

Optionally, the candidate warehouse determination module 604 is specifically configured to: determining candidate priorities of all warehouses of the merchants according to the shortage warehouse priority table; calculating the distribution cost of each warehouse for distributing the user order according to the receiving address and the warehouse address information of each warehouse of the merchant; calculating the order value of each warehouse for distributing the order according to the candidate priority and the weight of the distribution cost; and sequencing all warehouses of the merchants from large to small according to the sequence values to obtain a sequence, and taking the warehouse with the largest sequence value in the sequence as a candidate warehouse corresponding to the user order.

Optionally, the out-of-stock transfer module 605 is configured to: judging whether the inventory quantity corresponding to the user order in the candidate warehouse is smaller than the goods quantity; if the stock quantity corresponding to the user order in the candidate warehouse is smaller than the goods quantity, judging whether all warehouses in the shortage warehouse priority table are traversed or not; if all the warehouses in the short-order warehouse priority table are not traversed, returning to the step of determining the candidate warehouse corresponding to the user order according to the preset short-order warehouse priority table until all the warehouses in the short-order warehouse priority table or the stock quantity corresponding to the user order in the candidate warehouse is traversed and is not less than the goods quantity; if the inventory quantity corresponding to the user order in the candidate warehouse is not less than the goods quantity, calling a delivery confirmation interface, and entering a delivery and delivery flow of the user order; if all the warehouses in the shortage warehouse priority table are traversed, generating shortage warning information; and sending the out-of-stock warning information to the user to prompt the user that the order cannot be placed.

Wherein, institute warehouse shortage changes storehouse device still includes replenishment module 607, the replenishment module specifically is used for: obtaining order confirmation information of a user and confirming the type of the order confirmation information, wherein the type comprises order cancellation success and order cancellation failure; if the type of the order determining information is that the order cancellation fails, generating replenishment detection for the original delivery warehouse; when goods corresponding to the user order are replenished to the original delivery warehouse, the replenishment detection is triggered, and whether the current inventory quantity corresponding to the user order in the original delivery warehouse is larger than the goods quantity or not is judged; if yes, a delivery confirmation interface is called, and a dispatching delivery flow of the user order is entered.

Optionally, the replenishment module 607 is further specifically configured to: acquiring the replenishment quantity of the goods corresponding to the user order; acquiring the original inventory quantity corresponding to the user order in the original delivery warehouse; and calculating the current inventory quantity corresponding to the user order in the original delivery warehouse according to the original inventory quantity and the replenishment quantity.

On the basis of the previous embodiment, other functional modules are additionally arranged, and through the functional modules, the warehouse area relation and the backorder priority delivery warehouse relation can be utilized to reasonably select the delivery warehouse when the user order is backorder.

Fig. 6 and fig. 7 describe the short-of-stock transfer device in the embodiment of the present invention in detail from the perspective of the modular functional entity, and the short-of-stock transfer device in the embodiment of the present invention in detail from the perspective of hardware processing.

Fig. 8 is a schematic structural diagram of a warehouse stock-out transfer device, where the warehouse stock-out transfer device 800 may have a relatively large difference due to different configurations or performances, and may include one or more processors (CPUs) 810 (e.g., one or more processors) and a memory 820, one or more storage media 830 (e.g., one or more mass storage devices) storing an application 833 or data 832. Memory 820 and storage medium 830 may be, among other things, transient or persistent storage. The program stored on the storage medium 830 may include one or more modules (not shown), each of which may include a sequence of instructions operating on the warehouse back-out transfer apparatus 800. Further, the processor 810 may be configured to communicate with the storage medium 830 and execute a series of instruction operations in the storage medium 830 on the warehouse backorder transfer apparatus 800 to implement the steps of the warehouse backorder transfer method described above.

The warehouse out-of-stock binning apparatus 800 may also include one or more power supplies 840, one or more wired or wireless network interfaces 850, one or more input-output interfaces 860, and/or one or more operating systems 831, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD, and the like. It will be understood by those skilled in the art that the warehouse back-out transfer facility configuration shown in fig. 8 does not constitute a limitation of the warehouse back-out transfer facilities provided herein, and may include more or fewer components than those shown, or some components in combination, or a different arrangement of components.

The present invention also provides a computer readable storage medium, which may be a non-volatile computer readable storage medium, which may also be a volatile computer readable storage medium, having stored therein instructions, which, when run on a computer, cause the computer to perform the steps of the warehouse out-of-stock transfer method.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses, and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The warehouse shortage transferring method is characterized by comprising the following steps:

the method comprises the steps of obtaining a user order and order data corresponding to the user order, wherein the order data comprise a receiving address, merchant information and goods quantity;

acquiring a warehouse information table corresponding to the merchant information, and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table;

judging whether the inventory quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity;

if the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity, determining a candidate warehouse corresponding to the user order according to a preset stock shortage warehouse priority table;

and selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse.

2. The warehouse out-of-stock transfer method according to claim 1, further comprising, before the obtaining the user order and the order data corresponding to the user order:

acquiring a warehouse information table input by a merchant, wherein the warehouse information table comprises merchant warehouse codes and warehouse address information corresponding to various warehouses;

matching the warehouse address information with a preset address coding table to obtain an address code corresponding to the warehouse address information;

and generating an association relation table of the merchant according to the corresponding relation between the warehouse address information and the address code and the merchant warehouse code respectively.

3. The method for warehouse out-of-stock transfer according to claim 2, wherein the obtaining the warehouse information table corresponding to the merchant information and determining the original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table comprises:

acquiring a warehouse information table corresponding to the merchant information;

determining the address code of the user order according to the receiving address;

and matching the warehouse information table according to the incidence relation table and the address code of the user order to obtain an original delivery warehouse corresponding to the user order.

4. The warehouse out-of-stock transfer method of claim 3, wherein the determining the candidate warehouse corresponding to the user order according to a preset out-of-stock warehouse priority table comprises:

determining candidate priorities of all warehouses of the merchants according to the shortage warehouse priority table;

calculating the distribution cost of each warehouse for distributing the user order according to the receiving address and the warehouse address information of each warehouse of the merchant;

calculating the order value of each warehouse for distributing the order according to the candidate priority and the weight of the distribution cost;

and sequencing all warehouses of the merchants from large to small according to the sequence values to obtain a sequence, and taking the warehouse with the largest sequence value in the sequence as a candidate warehouse corresponding to the user order.

5. The warehouse out-of-stock transfer method of any one of claims 1-4, wherein selecting a corresponding out-of-stock transfer strategy according to the selected candidate warehouse comprises:

judging whether the inventory quantity corresponding to the user order in the candidate warehouse is smaller than the goods quantity;

if the stock quantity corresponding to the user order in the candidate warehouse is smaller than the goods quantity, judging whether all warehouses in the shortage warehouse priority table are traversed or not;

if all the warehouses in the short-order warehouse priority table are not traversed, returning to the step of determining the candidate warehouse corresponding to the user order according to the preset short-order warehouse priority table until all the warehouses in the short-order warehouse priority table or the stock quantity corresponding to the user order in the candidate warehouse is traversed and is not less than the goods quantity;

if the inventory quantity corresponding to the user order in the candidate warehouse is not less than the goods quantity, calling a delivery confirmation interface, and entering a delivery and delivery flow of the user order;

if all the warehouses in the shortage warehouse priority table are traversed, generating shortage warning information;

and sending the out-of-stock warning information to the user to prompt the user that the order cannot be placed.

6. The warehouse out-of-stock transshipment method of claim 5, wherein after sending the out-of-stock alarm message to the user to prompt the user that the order cannot be placed, further comprising:

obtaining order confirmation information of a user and confirming the type of the order confirmation information, wherein the type comprises order cancellation success and order cancellation failure;

if the type of the order determining information is that the order cancellation fails, generating replenishment detection for the original delivery warehouse;

when goods corresponding to the user order are replenished to the original delivery warehouse, the replenishment detection is triggered, and whether the current inventory quantity corresponding to the user order in the original delivery warehouse is larger than the goods quantity or not is judged;

if yes, a delivery confirmation interface is called, and a dispatching delivery flow of the user order is entered.

7. The warehouse out-of-stock transfer method of claim 6, further comprising, after the replenishment of the corresponding goods of the user order to the original shipping warehouse:

acquiring the replenishment quantity of the goods corresponding to the user order;

acquiring the original inventory quantity corresponding to the user order in the original delivery warehouse;

and calculating the current inventory quantity corresponding to the user order in the original delivery warehouse according to the original inventory quantity and the replenishment quantity.

8. The utility model provides a warehouse scarce goods changes storehouse device which characterized in that, warehouse scarce goods changes storehouse device includes:

the order acquisition module is used for acquiring a user order and order data corresponding to the user order, wherein the order data comprises a receiving address, merchant information and the quantity of goods;

the original warehouse determining module is used for acquiring a warehouse information table corresponding to the merchant information and determining an original delivery warehouse corresponding to the user order according to the receiving address and the warehouse information table;

the judging module is used for judging whether the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the goods quantity;

a candidate warehouse determining module, configured to determine, according to a preset shortage warehouse priority table, a candidate warehouse corresponding to the user order when the stock quantity corresponding to the user order in the original delivery warehouse is smaller than the quantity of the goods;

and the stock shortage transfer module is used for selecting a corresponding stock shortage transfer strategy according to the selected candidate warehouse.

9. The utility model provides a warehouse scarce goods changes storehouse equipment which characterized in that, warehouse scarce goods changes storehouse equipment includes: a memory having instructions stored therein and at least one processor, the memory and the at least one processor interconnected by a line;

the at least one processor invoking the instructions in the memory to cause the warehouse backorder transfer equipment to perform the steps of the warehouse backorder transfer method of any of claims 1-7.

10. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the warehouse backorder transfer method according to any one of claims 1 to 7.

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