CN112070423A - Stock pre-occupation method and device, electronic equipment and storage medium - Google Patents

Abstract

The embodiment of the invention discloses an inventory pre-occupation method, an inventory pre-occupation device, electronic equipment and a storage medium. The method comprises the following steps: obtaining order information of a current order in a platform, wherein the order information comprises order demand of at least one kind of goods; determining inventory information for each of the goods in each store that is accessed to the platform; determining a target store group based on the inventory information, wherein the target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of the at least one cargo; and performing store inventory pre-occupation based on the shipment volume of each goods corresponding to each store in the target store group. The embodiment of the invention improves the order conversion efficiency, reduces the order splitting rate and further improves the goods distribution efficiency.

Description

Stock pre-occupation method and device, electronic equipment and storage medium

Technical Field

The embodiment of the invention relates to the technical field of warehouse logistics, in particular to a stock preemption method, a stock preemption device, electronic equipment and a storage medium.

Background

With the rise of concepts of O2O (Online To Online) and new retail, the demand of customers for "1 hour delivery" service is becoming stronger. All large enterprises in the industry also launch the service of '1 hour delivery'. The online and offline stores cooperate to develop the online and offline single-line and offline distribution situation.

In the prior art, in a mode that an online platform and an online store are cooperated, when a user places an order, the order is split according to the priority of the store, a map coverage path corresponding to the store and whether the inventory of goods of the type in the store meets the order demand, and then the inventory is pre-occupied.

In the process of implementing the invention, the inventor finds that at least the following problems exist in the prior art: in the case of placing orders in a large number for one kind of goods, the situation that the inventory of each single store is insufficient to cause order placing failure may occur, and the order conversion efficiency is reduced. When multiple goods are present for an order, a high rate of order splitting may result during pre-emption of the inventory. For example, if an order includes two items a and B, only the item a is in stock in store 1, the item a and the item B are in stock in store 2, and the priority of store 1 is higher than that of store 2, then the order is split into two orders for production, that is, the item a in store 1 corresponds to one order and the item B in store 2 corresponds to one order.

Disclosure of Invention

The invention provides a stock pre-occupation method, a stock pre-occupation device, electronic equipment and a storage medium, which are used for improving order conversion efficiency, reducing order splitting rate and further improving goods distribution efficiency.

In a first aspect, an embodiment of the present invention provides an inventory preemption method, including:

obtaining order information of a current order in a platform, wherein the order information comprises order demand of at least one kind of goods;

determining inventory information of each of the goods in each store accessed to the platform;

determining a target group of stores based on the inventory information; the target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of the at least one goods;

and performing store inventory pre-occupation based on the shipment volume of each goods corresponding to each store in the target store group.

In a second aspect, an embodiment of the present invention further provides an inventory preemption device, including:

the order information acquisition module is used for acquiring order information of a current order in the platform, wherein the order information comprises the order demand of at least one kind of goods;

the inventory information determining module is used for determining the inventory information of each goods in each store accessed to the platform;

a target store group determination module, configured to determine a target store group based on the inventory information, where the target store group includes at least one store, and a total inventory amount of the stores included in the target store group satisfies an order demand of the at least one item;

and the stock pre-occupation module is used for pre-occupying the stocks of the stores based on the shipment volume of each goods corresponding to each store in the target store group.

In a third aspect, an embodiment of the present invention further provides an electronic device, including:

one or more processors;

a memory for storing one or more programs;

when the one or more programs are executed by the one or more processors, the one or more processors implement an inventory preemption method as provided in an embodiment of the first aspect.

In a fourth aspect, an embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program is configured to, when executed by a processor, implement an inventory preemption method as provided in the first aspect.

The method comprises the steps of obtaining order information of a current order in a platform, wherein the order information comprises order requirements of at least one kind of goods; determining inventory information of each cargo in each store accessed to the platform; determining a target store group based on the inventory information, wherein the target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of at least one kind of goods; and performing store inventory pre-occupation based on the shipment volume of each goods corresponding to each store in the target store group. According to the technical scheme, the inventory sum of the stores is matched with the order demand of the goods, so that the order placing failure caused by insufficient inventory of a single store is avoided under the condition that the order placing is carried out on a plurality of goods while the order demand is met by the goods output quantities of the stores and the goods respectively corresponding to the stores in the target store group determined based on the inventory information, and the order placing failure is improved; under the condition that multiple goods appear in aiming at an order, the splitting rate of the order can be reduced, and the goods distribution efficiency is further improved.

Drawings

FIG. 1 is a flow chart of an inventory preemption method in accordance with an embodiment of the present invention;

FIG. 2 is a flowchart of an inventory preemption method in a second embodiment of the present invention;

FIG. 3 is a flowchart of an inventory preemption method in a third embodiment of the present invention;

fig. 4 is a structural diagram of a platform system according to a fourth embodiment of the present invention.

Fig. 5 is a structural diagram of an inventory preemption device in a fifth embodiment of the present invention;

fig. 6 is a block diagram of an electronic device in the sixth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In order to clearly describe the technical solutions of the embodiments of the present invention, a platform system according to the present invention will be described in detail first.

The platform system includes a platform and at least one collaboration store. Wherein the platform provides an entrance for a collaboration store to access. Illustratively, the platform included in the platform system may be an inline platform.

After the cooperative store is successfully accessed, the goods mapping relationship is established on the platform, that is, the mapping relationship between the goods identifier in the platform and the goods identifier in the cooperative store is established. The platform can adopt standard matching for the goods, namely match brands, specifications and the like of the goods, and inform a sales staff to carry out matching relation audit if the goods are successfully matched; if the matching relationship is successfully checked, the goods in the cooperative store are successfully accessed to the platform, that is, the goods in the cooperative store can be sold under the normal condition of the platform. Correspondingly, when the user purchases goods under the platform, each cooperative store can perform stock pre-occupation on the corresponding goods in the cooperative store according to the order requirement of at least one goods contained in the order information of the user. The cooperation stores can comprise offline stores and self-operated stores, and for simplification, the offline stores and the self-operated stores are called as stores in a unified manner in the embodiment of the invention.

Example one

Fig. 1 is a flowchart of an inventory preemption method according to an embodiment of the present invention. The embodiment of the invention is suitable for the condition of stock pre-occupation of the order placed by the user in the process of placing the order on the online platform, and the method is executed by the stock pre-occupation device which is realized by software and/or hardware and is specifically configured in electronic equipment, wherein the electronic equipment can be a terminal with certain data operation capacity, such as a notebook computer, computer equipment and the like, and can also be a server.

An inventory preemption method as shown in fig. 1, comprising:

s110, obtaining order information of a current order in the platform, wherein the order information comprises order demand of at least one kind of goods.

The current order can be understood as an order submitted when a user purchases goods through the platform, and the order includes at least one kind of goods, quantity of each goods, price, order demand and other information.

And S120, determining inventory information of each goods in each store accessed to the platform.

The inventory information may be stored locally in the electronic device, in another storage system (e.g., a server corresponding to the platform) associated with the electronic device, or in a cloud.

Optionally, determining inventory information of each good in each store accessed to the platform may be to acquire inventory information of all goods contained in each store accessed to the platform; and screening the acquired stock information, and keeping the stock information corresponding to the goods contained in the order information.

Or alternatively, the stock information of each good in each store of the access platform is determined, which may be to search the store information of each store containing each good according to a good identifier (for example, a good name, a good label, and the like) of each good contained in the stock information; and searching and acquiring inventory information of the goods which are consistent with the goods identification in the store information.

Generally, the platform has a large number of stores connected thereto, and the number of stores containing the same kind of goods is also large. In order to reduce the amount of acquired inventory information, the store accessing the platform can be screened for order information of the current order. Illustratively, screening the stores of the access platform according to the address distribution route of the stores of the access platform, and the receiving address and the expected receiving time contained in the order information; and acquiring the inventory information of the goods in the selected stores. The address distribution path of each store can be stored in the local electronic equipment, the storage equipment associated with the electronic equipment or the cloud in advance, and can be planned according to the receiving address and the store address by using a third-party application; of course, when planning the store address delivery route, the expected delivery time of the user may be referred to, so that the planned address delivery route can satisfy the performance time limit.

And S130, determining a target store group based on the inventory information.

The target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of the at least one goods.

The target store group comprises at least one store, and at least one kind of goods is delivered through the at least one store in the target store group.

In order to ensure that the order information is correctly converted, that is, the types and the quantities of the goods received by the subsequent user are consistent with the order information, the sum of the stock of at least one store included in the target store group needs to satisfy the order demand of at least one kind of goods.

In an optional implementation manner of the embodiment of the present invention, in order to ensure that the number of times the user receives the goods or the number of packages in the order has a certain condition limit when the user receives the goods, the number of stores included in the target store group needs to meet a preset number limit condition.

For example, the number of stores included in the target store group satisfies the preset number limiting condition, which may be: the number of stores included in the target store group is the minimum value of the number of stores included in all candidate store groups, or the number of stores included in the target store group is smaller than a set number threshold; wherein each of the candidate store groups includes at least one store, and a sum of stock amounts of the stores included in each of the candidate store groups satisfies an order demand of the at least one item. The set number threshold may be determined by a technician as needed or empirically, or may be determined by a number of tests.

And S140, pre-occupying the stores based on the shipment volume of each goods corresponding to each store in the target store group.

Since the target store group includes at least one store, each store will subsequently deliver at least one item, and in order to avoid that the items in the current order are occupied by other orders after the current order, it is necessary to perform inventory pre-occupation on the items related to the current order according to the related information in the target store group after the target store group is determined.

Specifically, for one of the stores included in the target store group, the stock of the corresponding goods in the store is reserved according to the shipment volume of each goods corresponding to the store, and the reserved goods are isolated from the goods which are not reserved in the stock information, so that the reserved goods are prevented from being sold again. Illustratively, pre-empting the inventory of the respective goods in the store may be: determining goods information of goods to be pre-occupied in a store to be pre-occupied, wherein the goods information comprises goods identifications and goods output amount corresponding to the goods identifications; and carrying out pre-occupation marking on the goods which are consistent with the shipment quantity in the goods identification of the goods to be pre-occupied. Correspondingly, when order production is subsequently carried out, namely goods are delivered out of the warehouse, the goods marked for pre-occupation in the same store are packaged into a package for delivery.

The method comprises the steps of obtaining order information of a current order in a platform, wherein the order information comprises order requirements of at least one kind of goods; determining inventory information of each cargo in each store accessed to the platform; determining a target store group based on the inventory information, wherein the sum of the inventory quantity of at least one store contained in the target store group meets the order demand of at least one kind of goods, and the number of stores contained in the target store group meets a preset number limiting condition; and performing store inventory pre-occupation based on the shipment volume of each goods corresponding to each store in the target store group. According to the technical scheme, the quantity of stores contained in the target store group is limited through the matching of the total stock of the stores and the demand quantity of the orders of the goods and the preset quantity limiting condition, so that the goods output quantities of the stores and the goods corresponding to the stores in the target store group determined based on the inventory information meet the demand of the orders, and the ordering failure caused by the insufficient stock quantity of a single store is avoided under the condition of ordering a plurality of goods, and the conversion efficiency of the orders is improved; under the condition that multiple goods appear in aiming at an order, the splitting rate of the order can be reduced, and the goods distribution efficiency is further improved.

Example two

Fig. 2 is a flowchart of an inventory preemption method in a second embodiment of the present invention. The embodiment of the invention is optimized and improved on the basis of the technical scheme of each embodiment.

Further, if there are at least two target store groups, before "store inventory preemption is performed based on the shipment volume of each of the goods corresponding to each of the stores in the target store groups", the method further includes "selecting the target store groups and obtaining one of the target store groups" to improve the determination mechanism of the target store groups.

An inventory preemption method as shown in fig. 2, comprising:

s210, obtaining order information of a current order in the platform, wherein the order information comprises order demand of at least one kind of goods.

S220, determining inventory information of each goods in each store accessed to the platform.

And S230, determining a target store group based on the inventory information.

The target store group comprises at least one store, the sum of the stock amounts of the stores contained in the target store group meets the order demand of the at least one goods, and the number of the stores contained in the target store group meets a preset number limiting condition.

S240, screening the target store groups, and obtaining one of the target store groups.

When at least two target store groups exist, one of the target store groups needs to be screened out from the at least two target store groups, and store inventory pre-occupation is carried out according to the shipment volume of each goods corresponding to each store in the screened target store group.

Optionally, the screening of the target store groups to obtain one of the target store groups may be: and screening the target store groups according to the priority weights of stores contained in the target store groups.

The priority weight of the store is used to define the order of the stores to be taken out of the warehouse. For example, when both the store a and the store B contain the goods C, if the priority of the store a is higher than that of the store B, the store a is scheduled to deliver the goods C in a limited manner, that is, the goods C in the store a is pre-reserved in stock, and the specific pre-reserved stock quantity is determined according to the order demand and the stock quantity of the goods C in the store a.

The priority weight of the store can be used as an important reference for judging the service quality of the store, and the attributes of the store can be distinguished through the priority weight. For example, the priority weight of the store may be determined according to the historical shipment volume and/or the historical return rate of the store. For example, if the historical shipment volume of the store is higher than the set shipment threshold, and the historical return rate is lower than the set return threshold, the priority of the store is higher; wherein the set shipment threshold and/or the set return threshold may be determined by a technician as desired or empirically. Illustratively, the priority weights of stores may also be determined based on store attributes. For example, the priority of a self-service store is higher than that of a general store.

Or optionally, the screening of the target store groups to obtain one of the target store groups may be: and screening the target store group according to the pre-shipment amount of each cargo in the target store group and the order amount of the corresponding cargo in the order information, wherein the pre-shipment amount of each cargo is determined according to the price of the cargo and the shipment amount of the cargo.

It should be noted that the price of the goods for the same goods in different stores may not be the same due to the location of the store, the current store activity held by the store, the production lot of the goods, or the property (e.g., color) of the goods. In order to avoid the situation that the total amount of the goods during shipment is higher than the order amount of each goods in the order information, the pre-shipment amount of each goods can be determined according to the price of the goods and the shipment amount of the goods; and selecting and screening the target store groups according to the pre-shipment amount of each goods in each target store group and the order amount of the corresponding goods in the order information.

Specifically, the pre-shipment amount of each cargo is determined according to the product of the cargo price of each cargo in the store and the shipment amount of the cargo; removing a target store group of which the pre-shipment amount of the goods is higher than the order amount of the corresponding goods in the order information; calculating the sum of the pre-shipment amounts of the goods contained in each target store group after the elimination; and screening out one target store group with the minimum sum of the pre-shipment amounts or the sum of the pre-shipment amounts smaller than the set amount threshold. The set amount threshold may be determined according to the maximum value and/or the minimum value of the sum of the pre-shipment amounts, or may be determined by a technician according to needs or empirical values.

Or optionally, the screening of the target store groups to obtain one of the target store groups may be: and determining the distribution cost according to the distribution route of each store in each target store group, and screening the target store groups according to the distribution cost corresponding to each target store group.

Because goods behind the order all need carry out logistics distribution under the platform, in order to reduce logistics distribution cost, can also filter target store group through the logistics distribution cost that two at least target store groups of confirming correspond. Specifically, for each target store group, the delivery route of each store included in the target store group is determined according to the order address and/or the expected receiving time included in the order information and the store address of the store; determining the goods delivery time cost and/or the goods delivery cost corresponding to each store according to the delivery route and the delivery amount of at least one goods contained in each store; and screening the target store groups according to the total cost of the goods delivery time and/or the total cost of the goods delivery cost corresponding to each target store group. The total sum of the cargo delivery time costs may be the maximum cargo delivery time of the cargo delivery times in the target store group, or may be the cumulative cargo delivery time.

It should be noted that, when the target store group is screened, at least one of the above manners may be adopted, and the platform manager or the owner may set or combine the different manners according to needs or experience values, which is not limited in this embodiment of the present invention.

And S250, pre-occupying the stores based on the shipment volume of each goods corresponding to each store in the target store group.

According to the embodiment of the invention, when at least two target store groups exist, different strategies are adopted to screen the target store groups, so that one of the target store groups is obtained, and store inventory pre-occupation is carried out according to the shipment volume of each goods corresponding to each store in the screened target store group, so that the determination mechanism of the target store group is perfected, a platform manager can aim at store inventory pre-occupation according to the self requirement, and the benefit of the platform manager or an owner is maximized.

EXAMPLE III

Fig. 3 is a flowchart of an inventory preemption method in a third embodiment of the present invention. The embodiment of the invention is optimized and improved on the basis of the technical scheme of each embodiment.

Further, the operation of determining a target store group based on the inventory information is refined into that the candidate parcel number of each store accessing the platform is respectively determined according to the order information and the inventory information of each goods; determining a function value corresponding to each candidate store group according to each candidate package quantity and a pre-constructed order package quantity function; each candidate store group comprises at least one store, and the sum of the inventory amounts of the stores contained in each candidate store group meets the order demand of the at least one goods; and screening at least one candidate store group as a target store group according to each function value of the order wrapping quantity function, and determining the target store group in a mode of calculating the function values, so that the determination mechanism of the target store group is optimized.

An inventory preemption method as shown in fig. 3, comprising:

s310, obtaining order information of a current order in the platform, wherein the order information comprises order demand of at least one kind of goods.

And S320, determining inventory information of each goods in each store accessed to the platform.

Illustratively, the stores accessing the platform can be screened according to the receiving address and the expected receiving time included in the order information and by combining the address distribution route of each store which is counted into the platform; and acquiring the inventory information of the goods in the selected stores.

S330, respectively determining the number of the candidate packages of each store accessed to the platform according to the order information and the inventory information of each cargo.

The number of the candidate packages is used for representing whether the current store can send out packages or not, and the inventory condition of the current store is reflected to a certain extent. Exemplarily, for one store of the access platform, if the inventory corresponding to each goods contained in the order information in the store is 0, determining that the number of the candidate packages corresponding to the store is 0; and if the stock quantity of the goods contained in at least one type of order information existing in the store is not 0, determining that the number of the candidate packages corresponding to the store is 1.

Specifically, the number of candidate packages corresponding to each store may be determined according to the following formula:

wherein N is the number of the types of goods contained in the order, M is the number of stores in the access platform, and N is_ijFor the inventory of the ith store corresponding to the jth type of goods, func (x) is a custom function, c_iThe number of candidate packages for the ith store; a is_ijkTo address a shipment, whether the jth shipment is sent via the ith store for the kth shipment of the shipment.

And S340, determining a function value corresponding to each candidate store group according to each candidate package quantity and a pre-constructed order package quantity function.

Wherein each of the candidate store groups includes at least one store, and a sum of stock amounts of the stores included in each of the candidate store groups satisfies an order demand of the at least one item.

The order parcel volume function may be used as an objective function for determining the target store group, and is used to characterize the number of parcels sent out during the delivery (i.e., order production) of the goods according to the stores included in the candidate store group and the shipment volumes of different goods in the stores.

The pre-built order parcel volume function may be the following function:

wherein G (omega) is an order parcel volume function, omega is a candidate store group comprising at least one store, c_iThe number of candidate packages for the ith store; a is_ijkWhether the jth goods of the jth kind of goods are sent through the ith store aiming at the goods or not; b_ijkAnd sending the delivery amount of the kth goods of the jth goods through the ith store for the jth goods.

Wherein Ω may be determined according to at least one constraint determined by the order information and the inventory information of each store accessing the platform.

Illustratively, the limitation condition may include a quantity limit condition:

wherein NUM_jThe purchase quantity of the jth goods; STOCK_ijkThe stock quantity of the kth goods which is the jth goods in the ith store.

For example, when there are at least two stores with different prices for the same kind of goods, the limitation condition may further include a price limitation condition:

therein, price_ijkA price for the item for the kth item for the item in the jth store in the ith store; PRICE_jThe price of the goods when the order of the jth goods in the order information is placed.

And S350, screening at least one candidate store group as a target store group according to each function value of the order parcel volume function.

Specifically, when different store combinations are determined based on the restriction conditions, a corresponding to each store_ijkAnd b_ijkObtaining at least one candidate store group omega, and determining a function value of an order wrapping quantity function G corresponding to each candidate store group; and when the function value of the order parcel volume function G is determined to be minimum or meets a set quantity threshold value, the corresponding at least one candidate store group is used as a target store group. Wherein the set quantity threshold is set by a technician as desired or empirically, or determined through a number of experiments.

It should be noted that, in order to achieve incentive and effective management for each store, a weight incentive mechanism may be further introduced, which is used to determine the priority weight of each store according to the historical shipment volume and/or the historical return rate of each store. Correspondingly, the order parcel volume function is weighted by adopting a priority weight. Specifically, the pre-constructed order parcel volume function is:

wherein p is_iThe corresponding priority weight of each store. Wherein p is_iThe smaller the number, the higher the priority of the store.

And S360, pre-occupying the stores based on the shipment volume of each goods corresponding to each store in the target store group.

The method comprises the steps of carrying out inventory pre-occupation on corresponding goods in stores according to the shipment volume of the goods corresponding to each store in a determined target store group, subsequently transmitting an order to a downstream splitting system, splitting the order by the splitting system according to the stores, and transmitting the split order to a production pre-occupation system, so that one-time pre-occupation is carried out in the order conversion process, the goods can be packaged according to pre-occupation results, the condition of pre-occupation change of the inventory is avoided, the accuracy of inventory positioning stores is guaranteed as much as possible, and the order conversion rate is further improved.

The method comprises the steps of determining a target store group into the steps of determining the number of candidate packages of each store accessed to a platform according to order information and inventory information of each goods; determining a function value corresponding to each candidate store group according to the number of each candidate package and a pre-constructed order package quantity function; each candidate store group comprises at least one store, and the sum of the inventory amounts of the stores contained in each candidate store group meets the order demand of the at least one goods; and screening at least one candidate store group as a target store group according to each function value of the order parcel volume function. By adopting the technical scheme, the whole order is taken as a whole, the inventory pre-occupation problem is converted into the optimization problem of the order wrapping quantity function, the stores meeting the limiting conditions and the delivery quantity of each goods in each store are solved through the function value of the order wrapping quantity function, the inventory pre-occupation of the stores is further realized, and the determination mechanism of the target store group is optimized.

Example four

The embodiment of the invention can provide a preferred implementation mode on the basis of the technical scheme of each embodiment.

Referring to fig. 4, a platform system is shown that includes a store access module, a goods mapping module, an ordering module, an inventory location module, and an order production module.

The platform provides an entrance for a cooperative store to access through the store access module. The cooperative stores of the access platform are all configured with access information and store attributes. Wherein the access information comprises store attributes and goods attributes. The store attributes comprise the store position and a map path of the store performance time; the goods attributes include a goods name, a goods price, and a goods inventory. Note that, here, the unit of goods in the stock of goods in the store is a bar code (UPC code) dimension. The cooperative stores comprise offline stores and self-operated stores.

After the store is successfully accessed, the goods can be accessed through the goods access module. Since the goods in the platform are typically displayed in the SKU (Stock Keeping Unit) dimension. Typically, one SKU will correspond to multiple UPC codes. In order to make the goods in the platform correspond to the goods inventory of the store, the goods mapping module is further required to establish the mapping relationship between the goods in the platform and the goods in the goods inventory of the store. Specifically, the system can adopt the standard article matching to the goods, namely match goods brand and specification etc. if the goods match successfully, can inform adopt the sale to carry out the audit of matching relation, after the matching audit succeeds, goods in the store can normally access to the system and sell.

When a user places an order in the ordering module, the inventory positioning module is called to perform inventory positioning, and the inventory positioning module can acquire all goods data in the order. The goods data comprises inventory information of an own bank, inventory information of an offline store and order information. In order to reduce the amount of acquired information, whether the stores are in the performance aging range or not is acquired by combining the receiving address of the user in the order information, the expected receiving time and the address distribution route of each store, and effective offline store information is acquired. And then, the store inventory pre-occupation is carried out through the inventory positioning module through related operation, and the subsequent order production module carries out ex-warehouse operation according to the store inventory pre-occupation condition, so that order production is realized.

The inventory positioning module is mainly used for placing orders and pre-occupying goods, and the process of performing inventory pre-occupying for one order of a user is described in detail below.

The order includes N SKU goods_jThe purchase quantity is NUM_jPRICE of PRICE_jWhere j is 1,2, …, N. If the number of the satisfied cooperative stores is M, SHOP SHOP_iCorresponding cargo SKU_jThe satisfied UPC code goods have N_ijAnd each corresponding STOCK-in-STOCK is STOCK_ijkPrice of each UPC code is price_ijkWherein i is 1,2, …, M, k is 1,2, …, N_ij。

Carrying out weight assignment on each store according to the priority, wherein the priority of each store comprises 3 levels, the weight value of each self-service store is 1, the weight value of each high-priority store is 0.5, and the weight value of each common store is 0.8, namely the higher the priority of each store is, the smaller the weight value is, the weight value of store i is p_i。

Based on the above-mentioned discussion,converting the inventory pre-occupation positioning problem into an optimization solving problem, and obtaining a by solving the target_ijkAnd b_ijk. Wherein, a_ijkAnd 0 or 1, for indicating the shipment of the store. In particular, as goods SKU_jWhen a store sends a shipment with UPC code k, a_ijkIs 1, otherwise is 0. Wherein, b_ijkThe corresponding delivery amount when delivering goods.

Custom function

Wherein

Optimally solving the target object as

And (3) performing shop group positioning according to the following optimization solution limiting conditions, namely determining omega:

satisfying in-order cargo SKU_jThe purchase amount of (c);

0≤b_ijk≤STOCK_ijkthe stock in stock of each store is met when the order is produced;

satisfying in-order cargo SKU_jThe purchase price of (c).

Based on the optimization problem solution, a corresponding to each store is obtained_ijkAnd b_ijk. A corresponding to each store is followed_ijkAnd b_ijkThe method comprises the steps of carrying out inventory pre-occupation positioning on corresponding goods in stores, continuously transmitting orders to a downstream splitting system in a transparent mode, splitting the orders by the splitting system according to the stores, then transmitting the orders to a production pre-occupation system in a transparent mode, carrying out primary pre-occupation in an order conversion process, and carrying out order production according to pre-occupation resultsThe method avoids the situation of pre-occupation change of the stock, ensures the accuracy of the stock positioning store as much as possible, and further improves the order conversion rate.

EXAMPLE five

Fig. 5 is a block diagram of an inventory preemption device in a fifth embodiment of the present invention. The embodiment of the invention is suitable for the condition that the stock is pre-occupied aiming at the order placed by the user in the process of placing the order by the platform, is realized by software and/or hardware and is specifically configured in the electronic equipment, and the electronic equipment can be a terminal with certain data operation capability, such as a notebook computer, computer equipment and the like, and can also be a server.

An inventory preemption device, as shown in fig. 5, includes: an order information acquisition module 510, an inventory information determination module 520, a target store group determination module 530, and an inventory preemption module 550.

The order information acquiring module 510 is configured to acquire order information of a current order in a platform, where the order information includes an order demand of at least one kind of goods;

an inventory information determining module 520, configured to determine inventory information of each of the goods in each store accessing the platform;

a target store group determining module 530, configured to determine a target store group based on the inventory information, where the target store group includes at least one store, and a sum of stock amounts of stores included in the target store group satisfies an order demand of the at least one item;

the inventory pre-occupation module 550 is configured to perform inventory pre-occupation of stores based on the shipment volume of each of the goods corresponding to each store in the target store group.

The method comprises the steps that order information of a current order in a platform, including order requirements of at least one kind of goods, is obtained through an order information obtaining module; determining the inventory information of each cargo in each store of the access platform through an inventory information determining module; determining a target store group through a target store group determination module based on the inventory information, wherein the target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of at least one cargo; and performing store inventory pre-occupation through an inventory pre-occupation module based on the shipment volume of each goods corresponding to each store in the target store group. According to the technical scheme, the inventory sum of the stores is matched with the order demand of the goods, so that the order placing failure caused by insufficient inventory of a single store is avoided under the condition that the order placing is carried out on a plurality of goods while the order demand is met by the goods output quantities of the stores and the goods respectively corresponding to the stores in the target store group determined based on the inventory information, and the order placing failure is improved; under the condition that multiple goods appear in aiming at an order, the splitting rate of the order can be reduced, and the goods distribution efficiency is further improved.

Further, the number of stores included in the target store group satisfies a preset number limiting condition, including:

the number of stores included in the target store group is the minimum value of the number of stores included in all candidate store groups, or the number of stores included in the target store group is smaller than a set number threshold;

wherein each of the candidate store groups includes at least one store, and a sum of stock amounts of the stores included in each of the candidate store groups satisfies an order demand of the at least one item.

Further, the apparatus further comprises a target store group screening module configured to:

if at least two target store groups exist, before store inventory pre-occupation is carried out based on the shipment volume of each goods corresponding to each store in the target store groups, at least one of the following methods is adopted to screen the target store groups, and one of the target store groups is obtained:

screening the target store groups according to the priority weights of stores contained in the target store groups;

screening the target store group according to the pre-shipment amount of each cargo in the target store group and the order amount of the corresponding cargo in the order information, wherein the pre-shipment amount of each cargo is determined according to the price of the cargo and the shipment amount of the cargo; and the number of the first and second groups,

and determining the distribution cost according to the distribution route of each store in each target store group, and screening the target store groups according to the distribution cost corresponding to each target store group.

Further, the target store group screening module, when performing the target store group screening according to the pre-shipment amount of each item in the target store group and the order amount of the corresponding item in the order information, is specifically configured to:

and screening a target store group corresponding to the condition that the sum of the pre-shipment amounts of at least one kind of goods is larger than the order amount of the goods and the sum of the pre-shipment amounts corresponding to the current order is minimum.

Further, the target store group screening module, before performing the target store group screening according to the priority weights of the stores included in the target store group, is further configured to:

and respectively determining the priority weight of each store according to the historical shipment volume and the historical return rate of the stores.

Further, the target store group determination module 530 includes:

the candidate package quantity determining unit is used for respectively determining the candidate package quantity of each store accessed to the platform according to the order information and the inventory information of each cargo;

the function value determining unit is used for determining a function value corresponding to each candidate store group according to each candidate package quantity and a pre-constructed order package quantity function; each candidate store group comprises at least one store, and the sum of the inventory amounts of the stores contained in each candidate store group meets the order demand of the at least one goods;

and the target store group determining unit is used for screening at least one candidate store group as a target store group according to each function value of the order parcel volume function.

Further, the order information further includes: a shipping address and a desired shipping time;

accordingly, the inventory information determination module 520 includes:

the store screening unit is used for screening all stores accessed to the platform according to the receiving address, the expected receiving time and the address distribution path of each store accessed to the platform;

and the stock information acquisition unit is used for acquiring the stock information of the goods in the selected stores.

The inventory pre-occupation device can execute the inventory pre-occupation method provided by any embodiment of the invention, and has corresponding functional modules and beneficial effects for executing the inventory pre-occupation method.

EXAMPLE six

Fig. 6 is a block diagram of an electronic device in the sixth embodiment of the present invention. The electronic device shown in fig. 6 includes: an input device 610, an output device 620, a processor 630, and a storage device 640.

The input device 610 is configured to obtain order information of a current order in the platform, where the order information includes an order demand of at least one kind of goods; the system is also used for acquiring inventory information of each goods in each store accessed to the platform;

an output device 620 for displaying at least one of order information, inventory information, a target group of stores, and store inventory preemption information for each store in the target group of stores;

one or more processors 630;

a storage device 640 for storing one or more programs.

In fig. 6, a processor 630 is taken as an example, the input device 610 in the electronic apparatus may be connected to the output device 620, the processor 630 and the storage device 640 through a bus or other means, and the processor 630 and the storage device 640 are also connected through a bus or other means, which is taken as an example in fig. 6.

In this embodiment, the processor 630 in the electronic device may control the input device 610 to obtain order information of a current order in the platform; the inventory information of each cargo in each store accessed to the platform can be determined, and the input device 610 is controlled to acquire the inventory information of each cargo in each store; the system is further used for determining a target store group based on the inventory information, wherein the target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of the at least one cargo; the system is also used for pre-occupying store stocks based on the shipment volume of each goods corresponding to each store in the target store group; and is further configured to control the output device 620 to display at least one of order information, inventory information, the target group of stores, and store inventory preemption information for each store in the target group of stores.

The storage device 640 in the electronic device may be used as a computer-readable storage medium for storing one or more programs, which may be software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the inventory preemption method in the embodiment of the present invention (for example, the order information acquisition module 510, the inventory information determination module 520, the target store group determination module 530, and the inventory preemption module 540 shown in fig. 5). The processor 630 executes various functional applications and data processing of the electronic device by executing software programs, instructions and modules stored in the storage device 640, that is, the stock preemption method in the above-described method embodiments is implemented.

The storage device 640 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data and the like (the order information, the stock information, the target store group, and each acquired shipment amount corresponding to each store in the target store group, as in the above-described embodiment). Further, the storage 640 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some examples, the storage device 640 may further include memory located remotely from the processor 630, which may be connected to a server over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

EXAMPLE seven

The seventh embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by an inventory preemption device, implements an inventory preemption method provided by the embodiments of the present invention, and the method includes: obtaining order information of a current order in a platform, wherein the order information comprises order demand of at least one kind of goods; determining inventory information of each of the goods in each store accessed to the platform; determining a target store group based on the inventory information, wherein the target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of the at least one cargo; and performing store inventory pre-occupation based on the shipment volume of each goods corresponding to each store in the target store group.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. An inventory preemption method, comprising:

obtaining order information of a current order in a platform, wherein the order information comprises order demand of at least one kind of goods;

determining inventory information for each of the goods in each store that is accessed to the platform;

determining a target group of stores based on the inventory information; the target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of the at least one goods;

and performing store inventory pre-occupation based on the shipment volume of each goods corresponding to each store in the target store group.

2. The method according to claim 1, wherein the number of stores included in the target store group is the minimum of the number of stores included in all candidate store groups; alternatively, the first and second electrodes may be,

the number of stores contained in the target store group is less than a set number threshold;

wherein each of the candidate store groups includes at least one store, and a sum of stock amounts of the stores included in each of the candidate store groups satisfies an order demand of the at least one item.

3. The method according to claim 1, wherein if there are at least two target store groups, before performing store stock preemption based on a shipment volume of each of the goods corresponding to each of the stores in the target store groups, further comprising:

screening the target store groups by adopting at least one of the following methods, and obtaining one of the target store groups:

screening the target store groups according to the priority weights of stores contained in the target store groups;

screening the target store group according to the pre-shipment amount of each cargo in the target store group and the order amount of the corresponding cargo in the order information, wherein the pre-shipment amount of each cargo is determined according to the price of the cargo and the shipment amount of the cargo; and the number of the first and second groups,

and determining the distribution cost according to the distribution route of each store in each target store group, and screening the target store groups according to the distribution cost corresponding to each target store group.

4. The method of claim 3, wherein the screening of the target store group according to the pre-shipment amount of each goods in the target store group and the order amount of the corresponding goods in the order information comprises:

and screening a target store group corresponding to the condition that the sum of the pre-shipment amounts of at least one kind of goods is larger than the order amount of the goods and the sum of the pre-shipment amounts corresponding to the current order is minimum.

5. The method of claim 3, further comprising, prior to performing target store group screening based on the priority weights of stores included in the target store group:

and respectively determining the priority weight of each store according to the historical shipment volume and the historical return rate of the stores.

6. The method of claim 1, wherein determining a target group of stores based on the inventory information comprises:

determining the number of candidate packages of each store accessed to the platform according to the order information and the inventory information of each cargo;

determining a function value corresponding to each candidate store group according to each candidate package quantity and a pre-constructed order package quantity function; each candidate store group comprises at least one store, and the sum of the inventory amounts of the stores contained in each candidate store group meets the order demand of the at least one goods;

and screening at least one candidate store group as a target store group according to each function value of the order parcel volume function.

7. The method of any of claims 1-6, wherein the order information further comprises: a shipping address and a desired shipping time;

correspondingly, determining inventory information of each of the goods in each store accessing the platform comprises:

screening each store accessed to the platform according to the goods receiving address, the expected goods receiving time and the address distribution route of each store accessed to the platform;

and acquiring the inventory information of the goods in the screened stores.

8. An inventory preemption device, comprising:

the order information acquisition module is used for acquiring order information of a current order in the platform, wherein the order information comprises the order demand of at least one kind of goods;

the inventory information determining module is used for determining inventory information of each goods in each store accessed to the platform;

a target store group determination module for determining a target store group based on the inventory information; the target store group comprises at least one store, and the sum of the inventory amounts of the stores contained in the target store group meets the order demand of the at least one goods;

and the stock pre-occupation module is used for pre-occupying the stocks of the stores based on the shipment volume of each goods corresponding to each store in the target store group.

9. An electronic device, comprising:

one or more processors;

a memory for storing one or more programs;

when executed by the one or more processors, cause the one or more processors to implement an inventory preemption method as recited in any one 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 an inventory preemption method as claimed in any one of claims 1-7.

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