CN110706019A - Effective price tag pushing method and device, computer equipment and storage medium - Google Patents

Abstract

The application relates to an effective price tag pushing method and device, computer equipment and a storage medium. The method comprises the following steps: connecting the offline commodity database system through the electronic information platform, and receiving commodity data sent by the electronic information platform from the offline commodity database system, wherein the commodity data is commodity data of offline commodities in offline commodity transaction places; extracting commodity state data from the commodity data according to the various state data of the off-line commodities; extracting commodity state data of the off-line commodities from the commodity data; screening and preprocessing the commodity data according to the commodity state data and a preset screening condition set; when the commodity state data meet any one or more screening conditions in the screening condition set, determining the offline commodity as an effective offline commodity; and acquiring the target price of the effective offline commodity, and pushing the target price as an effective price tag of the offline commodity. By adopting the method, the effectiveness of price tag data is improved.

Description

Effective price tag pushing method and device, computer equipment and storage medium

Technical Field

The present application relates to the field of data processing technologies, and in particular, to a method and an apparatus for pushing an effective price tag, a computer device, and a storage medium.

Background

With the promotion of the strategy of developing retail stores, the number of small stores and stores will expand rapidly in the future, hundreds of cities in the country are provided with stores, and the construction of stores such as mothers and infants, off-line supermarkets, sports and the like is increased. The conventional store price tag system mainly acquires all commodity price data information by means of uniformly acquiring data and then carries out classified pushing, and due to the fact that the acquired commodity price data is large in quantity, the acquired price tag data comprises a large quantity of invalid price tag data, redundant data storage of a database system is increased, and store price tag operation cost is also increased.

Disclosure of Invention

In view of the above, it is desirable to provide an effective price tag pushing method, an apparatus, a computer device, and a storage medium, which can reduce the generation of data of invalid price tags for commodity prices and reduce the cost of price tag operation for store commodities.

A method of valid price tag push, the method comprising:

connecting the offline commodity database system through the electronic information platform, and receiving commodity data sent by the electronic information platform from the offline commodity database system, wherein the commodity data is commodity data of offline commodities in offline commodity transaction places; extracting commodity state data from the commodity data according to the various state data of the off-line commodities; screening and preprocessing the commodity data according to the commodity state data and a preset screening condition set; when the commodity state data meet any one or more screening conditions in the screening condition set, determining the offline commodity as an effective offline commodity; and acquiring the target price of the effective offline commodity, and pushing the target price as an effective price tag of the offline commodity.

A valid price tag push device, the device comprising:

the receiving module is used for connecting the offline commodity database system through the electronic information platform and receiving commodity data sent by the electronic information platform to the offline commodity database system, wherein the commodity data is commodity data of offline commodities in an offline commodity transaction place; the extraction module is used for extracting commodity state data from the commodity data according to the various state data of the off-line commodities; the screening module is used for screening and preprocessing the commodity data according to the commodity state data and a preset screening condition set; the determining module is used for determining the offline commodity as an effective offline commodity when the commodity state data meets any one or more screening conditions in the screening condition set; and the pushing module is used for acquiring the target price of the effective offline commodity and pushing the target price as the effective price tag of the offline commodity.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method of any of the above embodiments when executing the computer program.

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 method of any of the above embodiments.

According to the effective price tag pushing method and device, the computer equipment and the storage medium, the server is connected with the off-line commodity database system through the electronic information platform. And the electronic information platform sends the commodity data in the off-line commodity database system to the server. And when the server receives the commodity data, the commodity state data is extracted from the commodity data according to various states of the off-line commodities. Further, commodity state data is screened. The server stores a preset screening condition set, the screening condition set comprises a plurality of screening conditions, and each screening condition is used for screening commodity state data of an under-line commodity trading place. Further, the server screens the commodity state data of the offline commodity trading place according to the screening conditions in the screening condition set, and when the commodity state data meet any one or more screening conditions, the offline commodity corresponding to the commodity state data is determined to be the effective offline commodity. Therefore, the offline commodities that do not satisfy the screening condition can be removed by screening. Furthermore, the target price of the effective offline commodity is determined according to the screened effective offline commodity, the target price is pushed as the effective price tag, so that only the target price of the effective offline commodity needs to be pushed, the price of the offline commodity which does not meet the screening condition does not need to be pushed, the effectiveness and the accuracy of the price tag data can be improved, the generation of invalid price tag data in the commodity price is reduced, the redundant data storage of a database system is reduced, and the operation cost of the store price tag is saved.

Drawings

FIG. 1 is a diagram of an application environment for an efficient price tag push method in one embodiment;

FIG. 2 is a flow diagram illustrating a method for efficient price tag push in one embodiment;

FIG. 3 is a schematic flow chart of S207 in one embodiment;

FIG. 4 is a schematic diagram illustrating the flow of S301 in one embodiment;

FIG. 5 is a schematic diagram of a screening of store merchandise in one embodiment;

FIG. 6 is a flowchart of S209 in one embodiment;

FIG. 7 is a flowchart of S507 in one embodiment;

FIG. 8 is a schematic diagram of a calculation model for calculating an optimal price for store merchandise according to one embodiment;

FIG. 9 is a schematic flow chart of an efficient price tag push system link in one embodiment;

FIG. 10 is a flowchart illustrating S209 according to another embodiment;

FIG. 11 is a block diagram of an exemplary embodiment of an efficient price tag pushing arrangement;

FIG. 12 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The effective price tag pushing method can be applied to the application environment shown in fig. 1. The offline goods database system 10 and the server device 30 are connected through the electronic information platform 20. The offline commodity database system 10 stores commodity data of a plurality of offline commodities at a plurality of offline commodity transaction places. The electronic information platform 20 is used for regulating and controlling data information between the offline commodity database system 10 and the server device 30. The server device 30 is configured to screen out valid offline commodities according to commodity data in the offline commodity database system 10, calculate a target price of the valid offline commodities, and finally push the target price as a valid price tag to the terminal device 40. The terminal device 40 may be, but not limited to, various personal computers, notebook computers, desktop computers, and electronic shelf label systems, and the server device 30 may be implemented by an independent server or a server cluster composed of a plurality of servers. The offline commodity database system 10 may be one database system or a cluster of database systems.

In one embodiment, as shown in fig. 2, there is provided a valid price tag pushing method, which is described by taking the method as an example applied to the server device in fig. 1, and includes the following steps:

s201, connecting the offline commodity database system through the electronic information platform, and receiving commodity data sent by the electronic information platform from the offline commodity database system, wherein the commodity data is commodity data of offline commodities in an offline commodity transaction place.

In the present embodiment, the offline merchandise transaction location may be a store, and the offline merchandise may be merchandise in the store. And the background management system of the store is internally provided with an electronic information platform for allocating data of the off-line commodity database system. The offline commodity database system stores commodity data of a plurality of offline commodities in a plurality of offline commodity trading places. The electronic information platform reads the commodity data of the off-line commodities in the off-line commodity trading place from the off-line commodity database system and distributes the read commodity data to the server.

In one embodiment, the valid price tag pushing method further includes: and sending commodity data receiving failure information to the electronic information platform, so that when the offline commodity database system inquires the commodity data receiving failure information from the electronic information platform, distributing logs according to the commodity data in the electronic information platform and distributing corresponding commodity data through the electronic information platform.

Specifically, the commodity data distribution log in the electronic information platform stores record information of commodity data issued to each server each time. When a data transmission fault occurs between the server and the electronic information platform, the server sends commodity data receiving failure information to the electronic information platform. And the electronic information platform records the failure information of receiving the commodity data. When the commodity database system inquires the commodity data receiving failure information from the electronic information platform, distributing logs according to the commodity data in the electronic information platform and distributing corresponding commodity data to the server through the electronic information platform. Therefore, the commodity database system can provide a commodity data distribution compensation mechanism for the server, and data loss in the process of transmitting a large amount of commodity data is avoided. In one embodiment, the off-line merchandise trading venue is a store and the off-line merchandise is store merchandise. The off-line commodity database is a store sales option system database. The store sales option system database stores commodity data of a plurality of stores. The store types in the plurality of stores may differ. Each store comprises a plurality of commodities, each commodity corresponds to a plurality of commodity data, and the commodity data comprises commodity state data, commodity type data and the like. For example, store types may include off-line small store stores, competitive supermarket stores, red child stores, sports stores, high-end stores; the types of goods may include: snack cola potato chips, various cleaning products, fresh fruits, vegetables and poultry.

Specifically, the server is connected with a shop sales option system database through an electronic information platform. The store selling and selecting system database can distribute commodity data in the store selling and selecting system database to a plurality of servers in real time through the electronic information platform, and records a distribution log on the electronic information platform, so that the store selling and selecting system database can receive failure information notification returned by a downstream server conveniently, and then the store selling and selecting system database provides a data distribution compensation mechanism, and data loss in the process of transmitting a large amount of commodity data is avoided. In one embodiment, the server obtains the corresponding commodity data from the store sales option system database through an asynchronous receiving mode.

And S203, extracting commodity state data from the commodity data according to the various state data of the off-line commodities.

In this embodiment, the offline merchandise includes a plurality of status data. Each status data is used to determine a status of the item under line. For example, the goods status under the outlet line is determined to comprise a sales volume status, a stock status, an expiration date status and the like. Therefore, the server can extract the commodity state data from the commodity data according to the various state data of the off-line commodities. The product data of the offline product includes product status data, product attribute data, and the like. The commodity state data is data representing the state of the off-line commodity. The state of the commodity under the outgoing line can be determined through the commodity state data. For example, the sales status of the offline merchandise, the inventory status of the offline merchandise at the offline merchandise transaction location, the expiration status of the offline merchandise, and the like may be determined. In this embodiment, the server extracts the commodity pilar data of the next commodity from the received commodity data. Here, the product data may be product data corresponding to any one offline product, or may be product data of a plurality of offline products. Specifically, after receiving the commodity data of the off-line commodity, the server calculates the sales volume, the inventory and the expiration date of the off-line commodity in real time to obtain the commodity state of the off-line commodity. Wherein the expiration date represents an expiration date interval of the commodity.

And S205, carrying out screening pretreatment on the commodity data according to the commodity state data and a preset screening condition set.

In this embodiment, a preset filtering condition set is stored in the server in advance. The screening condition set comprises a plurality of screening conditions, and each screening condition is used for screening the commodity state data of the commodities under the line. The off-line commodities are multiple, and each off-line commodity comprises one or more commodity state data. The commodity state data may be data satisfying any one or more of the screening conditions in the screening condition set, or may be data not satisfying any one of the screening conditions in the screening condition set. Therefore, the commodity state data needs to be screened according to the commodity state data and a preset screening condition set so as to screen out the commodity state data meeting the screening conditions, and the effective offline commodities are determined according to the commodity state data meeting the screening conditions. Therefore, invalid offline commodities can be screened out, and the commodity data of the invalid offline commodities is prevented from being downloaded.

And S207, when the commodity state data meets any one or more screening conditions in the screening condition set, determining the offline commodity as an effective offline commodity.

In this embodiment, when the offline commodities are screened, when the commodity state data of the offline commodities meet any one or more screening conditions in the screening condition set, the offline commodities corresponding to the commodity state data are determined as valid offline commodities, so that the offline commodities are screened, the offline commodities which do not meet the screening conditions are removed, and the data processing amount of subsequent commodity data based on the offline commodities is reduced. In addition, when the commodity data of any offline commodity includes a plurality of commodity state data, one or more commodity state data in the plurality of commodity state data of any offline commodity meet the screening conditions in the screening condition set, and as long as one commodity state data meets one or more screening conditions in the screening condition set, the offline commodity is determined to be a valid offline commodity. For example, the commodity state data of the offline commodity a includes commodity state data a, commodity state data b, and commodity state data c. And if any one or more of the commodity state data of the off-line commodity A meets the screening condition, the off-line commodity A is the effective off-line commodity.

S209, acquiring the target price of the effective offline commodity, and pushing the target price as an effective price tag of the offline commodity.

In this embodiment, the valid offline merchandise includes a plurality of prices, and the server obtains a target price for the valid offline merchandise from the plurality of prices and pushes the target price as a valid price tag for the offline merchandise into a price tag system at the offline merchandise trading site. Therefore, the pushing of redundant invalid price tag data can be reduced, and the pressure of the server in data pushing is relieved. The target price is the effective price determined by the server according to the commodity data of the commodity under the effective line. Specifically, the server determines the target price of the effective offline commodity according to the commodity price attribute change, the price effective state and the offline commodity transaction place level priority order based on the commodity data of the effective offline commodity. Wherein the hierarchy represents the radiation range. For example, store level selling price refers to selling price available in a specific store; the city level selling price refers to the selling price which can be used by all stores in a certain city.

According to the effective price tag pushing method, the server receives the commodity data of the off-line commodities in the off-line commodity trading place distributed by the electronic information platform, and the commodity state data representing the off-line commodity state is extracted from the commodity data. Further, commodity state data is screened. The server stores a preset screening condition set, the screening condition set comprises a plurality of screening conditions, and each screening condition is used for screening commodity state data of an under-line commodity trading place. Further, the server screens the commodity state data of the offline commodity trading place according to the screening conditions in the screening condition set, and when the commodity state data meet any one or more screening conditions, the offline commodity corresponding to the commodity state data is determined to be the effective offline commodity. Therefore, the offline commodities that do not satisfy the screening condition can be removed by screening. Furthermore, the target price of the effective offline commodity is determined according to the screened effective offline commodity, the target price is pushed as the effective price tag, so that only the target price of the effective offline commodity needs to be pushed, the price of the offline commodity which does not meet the screening condition does not need to be pushed, the effectiveness and the accuracy of the price tag data can be improved, the generation of invalid price tag data in the commodity price is reduced, the redundant data storage of a database system is reduced, and the operation cost of the store price tag is saved.

In one embodiment, the commodity state data includes commodity sales state data, commodity inventory state data and commodity validity period state data; as shown in fig. 3, the step of determining the offline commodity as the valid offline commodity when the commodity status data satisfies any one or more screening conditions in the screening condition set includes:

s301, when the commodity sales state data meet the sales state screening conditions in the screening condition set, setting a first effective mark for the commodities under the line.

In this embodiment, the preset filtering condition set of the server includes the sales status filtering condition. The sale state screening condition is used for carrying out commodity effectiveness screening according to the sale state of the off-line commodity. And when the sale state of the off-line commodity is in the effective state, determining the off-line commodity as the effective off-line commodity.

Specifically, the server screens out commodity sales state data with a commodity sales state in an effective state according to the commodity sales state data of the off-line commodities, and sets a first effective mark for the off-line commodities corresponding to the commodity sales state data. The specific screening mode is that the commodity sales state data of the off-line commodities are compared with the sales state screening conditions in the screening condition set, and when the comparison result shows that the commodity sales state data of the off-line commodities meet the sales state screening conditions, the off-line commodities corresponding to the commodity sales state data are marked with first effective marks. For example, when the commodity sales state data of the off-line commodity determines that the off-line commodity is in a sales state, the off-line commodity is marked with a first valid mark.

And S303, when the inventory state data of the commodities meet the inventory state screening conditions in the screening condition set, setting a second effective mark for the commodities under the line.

In this embodiment, the server screens out the product inventory state data of which the product inventory state is in the valid state according to the product inventory state data of the off-line products, and sets a second valid flag for the off-line products corresponding to the product inventory state data. The specific screening mode is that the inventory state data of the offline commodities are compared with the inventory state screening conditions in the screening condition set, and when the comparison result shows that the inventory state data of the offline commodities meet the inventory state screening conditions, the offline commodities corresponding to the inventory state data of the commodities are marked with second effective marks. For example, when the inventory status of the product determined by the inventory status data of the offline product is lost, the second valid mark is marked.

S305, when the commodity validity period state data meets the valid state screening conditions in the screening condition set, setting a third valid mark for the under-line commodity.

Specifically, the server screens out commodity validity state data with a commodity validity state in a valid state according to the commodity validity state data, and sets a third valid mark for an offline commodity corresponding to the commodity validity state data. The specific screening mode is that the commodity validity period state data of the off-line commodity is compared with the valid state screening conditions in the screening condition set, and when the comparison result shows that the commodity validity period state data of the off-line commodity meets the valid state screening conditions, a third valid mark is marked on the off-line commodity. For example, when the expiration date status data of the offline commodity determines that the offline commodity is in the commodity expiration date interval, a third valid mark is marked on the offline commodity.

S307, when the first effective mark, the second effective mark or the third effective mark exists in the offline commodity, determining the offline commodity as an effective offline commodity; or, when the first effective mark, the second effective mark and the third effective mark exist in the offline commodity, determining the offline commodity as the effective offline commodity.

In this embodiment, the presence of the first valid mark, the second valid mark, or the third valid mark in the merchandise under the detection line is detected. If any one of the first effective mark, the second effective mark and the third effective mark exists, the offline commodity can be determined to be an effective offline commodity. Or when the first effective mark, the second effective mark and the third effective mark exist in the offline commodity at the same time, determining that the offline commodity is the effective offline commodity.

Therefore, the server can screen effective offline commodities based on the sale state, the inventory state and the validity period state of the offline commodities, so that price tag data are updated in a linkage manner, and the continuous validity of the price tag data of the offline commodity trading place system is guaranteed.

In one embodiment, as shown in fig. 4, the step of setting a first valid flag for the next commodity when the commodity sales status data meets the sales status filtering condition in the filtering condition set includes:

s401, when the commodity under the line is in a selling state, a first selling state, a selling state within preset days or a sold state within preset days is determined according to the commodity selling state data, the commodity selling state data is determined to meet the selling state screening condition, and a first effective mark is set for the commodity under the line.

In this embodiment, the offline commodity is in a normal sale state in the sale state, the first sale state refers to that the offline commodity belongs to a newly introduced commodity or is sold at a first online commodity transaction place, the sale within the preset number of days means that the offline commodity has a condition of sale within a preset number of days (for example, 10 days), and the sale within the preset number of days means that the offline commodity is over-sold within a preset number of days (for example, 30 days), that is, a certain market popularity exists. In a specific embodiment, the server analyzes the historical sales of the offline merchandise according to the historical sales of the offline merchandise, and when the offline merchandise is sold on shelves, sold for the first time and sold within a preset number of days in the online merchandise trading place. Or according to the prediction analysis of the offline commodity sales volume, when the offline commodity can be sold within the preset days, the offline commodity is provided with a first effective mark.

Specifically, when the server judges that the commodity sales state of the off-line commodity is in a sales state, a first sales state, a saleable state within a preset number of days or a sold state within a preset number of days according to the commodity sales state data, the server determines that the commodity sales state data of the off-line commodity meets the sales state screening condition, and the server marks the off-line commodity as a first effective mark. The commodity data of the offline commodity with the first effective mark is used as a commodity data source of the effective offline commodity of the issued price system for standby.

The step of setting a second valid flag for the commodity data when the commodity inventory status data meets the inventory status screening condition in the screening condition set includes:

and S403, when the commodity inventory state data is in a lost state, an imminent state or a in-transit state, determining that the commodity inventory state data meets inventory state screening conditions, and setting a second effective mark for the commodity under the line.

In this embodiment, when the offline merchandise is in a late-selling state or a temporary state, the offline merchandise transaction location has a demand for promoting sales of part of the merchandise, and the server will mark the part of the merchandise with a second valid mark. When the off-line commodities are in the in-transit state, the partial commodities are indicated to be in accordance with stock conditions, and in order to avoid that the partial commodities cannot be sold in time after arriving at the warehouse, the server marks the partial commodities with a second effective mark. In a specific embodiment, the server performs statistical analysis according to historical sales volume and real goods data in the warehouse of the off-line commodities when the off-line commodities are expected to have lost sales and temporary risks. Or according to the prediction of the production-distribution cycle of the off-line commodities, when the off-line commodities are about to arrive at the goods in the way, the second valid mark is set for the off-line commodities.

Specifically, when the server judges that the inventory state of the offline commodity is a late-selling state, an imminent state or an in-transit state according to the inventory state data, the server marks the offline commodity with a second effective mark. The commodity data of the off-line commodity with the second effective mark is used as commodity data of the issued price system for standby.

The step of setting a third valid flag for the commodity data when the commodity validity period status data meets the valid status screening condition in the screening condition set includes:

s405, when the commodity validity period state data is within the preset time period value range, determining that the commodity validity period state data meets the valid state screening condition, and setting a third valid mark for the offline commodity.

In this embodiment, when the server determines that the validity period status of the offline item is within the validity period, the server marks the item data of the part of items with a third validity mark. The commodity data of the off-line commodity with the third effective mark can be used as commodity data of a system capable of issuing prices for standby. In one embodiment, the term is calculated based on the expiration date of the offline good. And when the expiration date of the off-line commodity is within the reasonable range value, setting a third valid mark for the off-line commodity.

In the above embodiment, the server screens out valid offline commodities based on the specific commodity sales status data, the commodity inventory status data and the commodity validity period status data of the offline commodities, so that invalid offline commodities are eliminated, and the issuing accuracy of valid price tags is ensured.

Specifically, as shown in FIG. 5, in one embodiment, the off-line merchandise is store merchandise. When the store goods are in the sale state, the store goods are recorded as effective choices in the sale calculation model. When the store goods are new goods, such as newly introduced goods or goods sold in the store for the first time, the goods are marked as effective goods in the sales calculation model. When the store goods have the condition of being sold within X (X is a positive integer) days, the goods are marked as effective choices in the sales calculation model. When the store commodity is sold within Y (Y is a positive integer) days, namely certain market popularity exists, the shop commodity is recorded as an effective choice in a sales calculation model. Store commodities marked as effective choices in the sales calculation model can be taken as effective off-line commodities.

When the store goods are in a state of being sold and in a temporary state, the store may have a need to process a part of the goods, and the part of the goods is also marked as a valid option. When the store commodities are in the in-transit state, the partial commodities are indicated to be in accordance with stock conditions, and in order to avoid that the commodities cannot be sold in time after arriving at a warehouse, the stores can also take the partial commodities as effective choices. All commodities marked as valid candidates can be taken as valid offline commodities.

In one embodiment, as shown in fig. 6, the step of obtaining the target price of the valid offline good includes:

s501, commodity identification information of the effective offline commodities is obtained from the commodity management system.

And S503, acquiring the commodity selling price information of the effective offline commodities from the commodity pricing system according to the commodity identification information.

S505, location feature information of the offline commodity transaction location is acquired from the offline commodity transaction location management system.

And S507, acquiring the target price of the effective offline commodity according to the place characteristic information and the commodity selling price information.

In this embodiment, the product management system stores product master data of each offline product. The commodity main data includes commodity identification information. The commodity identification information includes commodity code information, commodity classification code information, and the like. The grading code can be used to represent a quality classification code of a fresh commodity, such as grading code 1 for a fine product, grading code 2 for a medium product, and grading code 3 for a general product. The commodity pricing system stores commodity selling price information of each off-line commodity. The commodity selling price information comprises commodity selling price full quantity information and commodity selling price increment information. The server obtains the commodity identification information of the effective offline commodity from the commodity management system, and then reads the commodity selling price information of the effective offline commodity from the commodity pricing system by using the commodity identification information. Meanwhile, the server acquires the location characteristic information of the off-line commodity trading location from the off-line commodity trading location management system. The offline commodity transaction place management system stores information of a plurality of offline commodity transaction places, wherein the information comprises place characteristic information of the offline commodity transaction places. Further, the server acquires the target price of the effective offline commodity by adopting a multithreading technology according to the site characteristic information and the commodity selling price information. Specifically, the target price may be selected from a plurality of prices of the commodity selling price information according to the location characteristic information.

In one embodiment, the off-line merchandise trading venue is a store and the off-line merchandise is store merchandise. The location characteristic information of the off-line commodity transaction location is store characteristic information. The store characteristic information may include a store code, a city to which the store belongs, a store group, a business status, and a district information. The store group represents an aggregate type of store, such as a community store type, a store group type, and the like. The goods identification information of the goods under the effective line comprises goods coding information. The commodity selling price information may include selling price information of each level under a non-small shop state line, selling price information of each type under the non-small shop state line, selling price information of each level under a small shop state line, and selling price information of each type under the small shop state line. The non-small shop comprises super fine standard, sports standard, red child standard, extreme object standard, super fine fresh and extreme object finished coffee. The small shop comprises fresh and standard products. The server acquires store characteristic information of each store from the offline commodity transaction place management system and acquires commodity selling price information of effective store commodities from the commodity pricing system, so that the target price of the effective store commodities is determined.

In one embodiment, as shown in fig. 7, the step of obtaining the target price of the effective offline item according to the location characteristic information and the item selling price information includes:

s601, obtaining commodity price type factors, commodity price shelf factors, commodity price amount factors and commodity price level factors from the commodity selling price information.

S603, when the commodity price type factor is changed, changing the corresponding conventional price type, the sales promotion price type and the member price type according to the site characteristic information and the commodity price type factor, and obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm.

And S605, when the commodity price schedule factor is changed, obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm according to the instant effective schedule, the future effective schedule and the failed schedule corresponding to the place characteristic information and the commodity price schedule factor change.

And S607, when the commodity price amount factor is changed, obtaining the target price of the commodity under the effective line through the price optimal sorting algorithm according to the corresponding amount of increase, amount of decrease and amount of invariance of the place characteristic information and the commodity price amount factor change.

And S609, when the commodity price hierarchy factor is changed, changing a plurality of corresponding price hierarchies according to the place characteristic information and the commodity price hierarchy factor, and obtaining the target price of the effective offline commodity through a price optimal sorting algorithm, wherein the plurality of price hierarchies are determined according to a plurality of offline commodity transaction places, and the offline commodity transaction places are included in the plurality of offline commodity transaction places.

In this embodiment, the commodity selling price information includes a commodity price type factor, a commodity price shelf factor, a commodity price amount factor, and a commodity price hierarchy factor. Changes in each factor affect the target price for the good under the active line. The commodity price type factors comprise a normal price type, a promotion price type and a member price type, the commodity price stage factors comprise an immediate effective stage, a future effective stage and a failure stage, the commodity price amount factors comprise an increase amount, a decrease amount and an unchanged amount, and the commodity price level factors comprise a plurality of price levels. The plurality of price tiers may be a national price, a store price, a city store group price, and a city price. The server obtains the commodity price type factor, the commodity price shelf factor, the commodity price amount factor and the commodity price hierarchy factor from the commodity selling price information, and the commodity price type factor, the commodity price shelf factor, the commodity price amount factor and the commodity price hierarchy factor are used for determining the target price of the commodity under the effective line. Wherein the time slot represents a time interval from the beginning to the end of the time when the selling price is effective.

In one embodiment, as shown in fig. 8, in the item price type factor, when the price type is newly increased or decreased, the currently effective price with the highest priority among the regular price, the promotion price, and the membership price corresponding to the offline item covered by the price type change is pushed to the price tagging system. Specifically, the small shop models perform priority determination according to the priority of national price > store price > urban store group price > urban price, and the non-small shop models perform priority determination according to the priority of store price > urban price > regional price > national price.

In the commodity price stage factors, when the price stage changes, according to different stage states of latest effectiveness, future effectiveness and invalidation, the price which is currently effective and has the highest priority in the conventional price, the sales promotion price and the member price corresponding to the store choice covered by the change of the price stage is pushed to the price tagging system. The small shop state executes priority judgment according to national price > store price > urban store group price > urban price priority, and the non-small shop state executes priority judgment according to store price > urban price > regional price > national price priority.

In the commodity price amount factor, when the price amount is updated, whether the price amount is increased, decreased or unchanged, the price which is currently effective and has the highest priority in the conventional price, the promotion price and the member price corresponding to the store choice covered by the price amount is pushed to the price tagging system. The small shop state executes priority judgment according to national price > store price > urban store group price > urban price priority, and the non-small shop state executes priority judgment according to store price > urban price > regional price > national price priority.

And the commodity price level factor pushes the current effective price with the highest priority to the price tagging system from the conventional price, the sales promotion price and the member price corresponding to the store selection covered by the price level when the price level changes. The small shop state executes priority judgment according to national price > store price > urban store group price > urban price priority, and the non-small shop state executes priority judgment according to store price > urban price > regional price > national price priority.

In a specific embodiment, as shown in fig. 9, in the effective price tag push system link, the optimal price computing system PIS obtains the current effective or future effective price of the offline commodity as the target price by monitoring the distributed message middleware Windq. And pushing the target price to a price full-scale big data processing system PMCS through a Kafka technology, providing a data source for price data acquisition and data analysis of the big data processing system PMCS, and providing data service for a search system. After receiving the target price, the PMCS of the price totality pushes the target price to a paper price tag system and an electronic price tag system in real time so as to be used for printing the paper price tag and displaying the electronic price tag by the system.

In one embodiment, as shown in fig. 10, the step of pushing the target price as the valid price tag includes:

and S701, the effective price tags are pushed to a big data processing device through a Kafka technology, and the big data processing device conducts data transmission decoupling on the received effective price tags in an asynchronous calling mode.

And S703, pushing the classified effective price tags to a price tag system through the big data processing device, wherein the classified effective price tags are obtained by classifying and processing the effective price tags through the big data processing device according to the pushing purpose of the effective price tags obtained after decoupling.

In the embodiment, the server pushes the effective price tags to the big data processing device through the Kafka technology, the data processing device performs data transmission decoupling on the received effective price tags in an asynchronous calling mode, stable transmission and integrity of a large amount of effective price tag data can be guaranteed at high performance and high throughput, the effective price tags can be pushed to a store price tag system accurately in real time, and processing resource consumption is reduced by the server.

The server classifies the effective price tags according to the purpose of pushing the effective price tags by using the external processing unit, and the large data processing device is based on the Kafka large data technology, so that data transmission is decoupled in an asynchronous calling mode, stable transmission and integrity of a large amount of effective price tag data are guaranteed through high performance and high throughput, the effective price tags can be accurately pushed to a store price tag system in real time, and the server also reduces processing resource consumption.

In summary, the effective price tag pushing method can be used in a brand-new price tag effective filtering and data accurate real-time pushing system link. The pushing system can filter and screen data sources in an optimal price calculation model according to the received store main data, commodity main data, various selling price data and effective store commodity data by using the effective price tag pushing method, reduces the downloading of redundant waste tag data, and realizes super-real-time and high-throughput accurate pushing based on a Kafka big data technology.

It should be understood that although the various steps in the flow charts of fig. 2-10 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-10 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.

In one embodiment, as shown in fig. 11, there is provided an effective price tag pushing device including: a receiving module 801, an extracting module 803, a screening module 805, a determining module 807, and a pushing module 809.

Wherein:

the receiving module 801 is configured to connect the offline commodity database system through the electronic information platform, and receive commodity data sent by the electronic information platform from the offline commodity database system, where the commodity data is commodity data of offline commodities in an offline commodity transaction place.

The extracting module 803 is configured to extract the commodity status data from the commodity data according to the multiple status data of the offline commodity.

The screening module 805 is configured to perform screening preprocessing on the commodity data according to the commodity state data and a preset screening condition set.

A determining module 807, configured to determine the offline commodity as the valid offline commodity when the commodity status data satisfies any one or more screening conditions in the screening condition set.

The pushing module 809 is configured to obtain a target price of the valid offline commodity, and push the target price as a valid price tag of the offline commodity.

In an optional embodiment, the valid price tag pushing device further includes a sending module (not shown).

And the sending module is used for sending data acquisition failure information to the electronic information platform when determining that the commodity data of the off-line commodity is not received, so that the electronic information platform reads and distributes the commodity data corresponding to the data acquisition failure information from the off-line commodity database according to the platform information record log.

In an alternative embodiment, the commodity status data includes commodity sales status data, commodity inventory status data, and expiration date status data. The determining module 807 may include:

and the first marking unit is used for setting a first effective mark for the goods under the line when the goods sales state data meets the sales state screening conditions in the screening condition set.

And the second marking unit is used for setting a second effective mark for the goods under the line when the goods inventory state data meets the inventory state screening conditions in the screening condition set.

And the third marking unit is used for setting a third effective mark for the goods under the line when the goods validity period state data meets the effective state screening conditions in the screening condition set.

The determining unit is used for determining the offline commodity as an effective offline commodity when the first effective mark, the second effective mark or the third effective mark exists in the offline commodity; or, when the first effective mark, the second effective mark and the third effective mark exist in the offline commodity, determining the offline commodity as the effective offline commodity.

In an optional embodiment, the first marking unit further comprises:

and the first marking subunit is used for determining that the commodity sales state data meets the sales state screening condition when the commodity under the line is in the sales state, the first sales state, the saleable state in the preset number of days or the sold state in the preset number of days according to the commodity sales state data, and setting a first effective mark for the commodity under the line.

The second marking unit further includes:

and the second marking subunit is used for determining that the commodity inventory state data meets the inventory state screening condition when the commodity inventory state data is in a lost state, an imminent state or an in-transit state, and setting a second effective mark for the commodity under the line.

The third marking unit further includes:

and the third marking subunit is used for determining that the commodity validity state data meets the valid state screening condition when the commodity validity state data is within the preset time period numerical range, and setting a third valid mark for the commodity under the line.

In an alternative embodiment, the pushing module 809 includes:

the first acquisition unit is used for acquiring the commodity identification information of the effective offline commodity from the commodity management system.

And the second acquisition unit is used for acquiring the commodity selling price information of the effective offline commodity from the commodity pricing system according to the commodity identification information.

And the third acquisition unit is used for acquiring the location characteristic information of the off-line commodity trading location from the off-line commodity trading location management system.

And the fourth acquisition unit is used for acquiring the target price of the effective offline commodity according to the place characteristic information and the commodity selling price information.

In an optional embodiment, the fourth obtaining unit comprises:

the first acquisition subunit is used for acquiring a commodity price type factor, a commodity price shelf factor, a commodity price amount factor and a commodity price hierarchy factor from the commodity selling price information.

And the second obtaining subunit is used for obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm according to the place characteristic information and the conventional price type, the promotion price type and the member price type which correspond to the commodity price type factor change when the commodity price type factor is changed.

And the third obtaining subunit is used for obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm according to the instant effective stage, the future effective stage and the failed stage corresponding to the change of the location characteristic information and the commodity price stage factor when the commodity price stage factor is changed.

And the fourth acquisition subunit is used for acquiring the target price of the commodity under the effective line through a price optimal sorting algorithm according to the location characteristic information and the amount of the increase, the amount of the decrease and the amount of the invariance corresponding to the commodity price amount factor change when the commodity price amount factor is changed.

And the fifth acquiring subunit is used for acquiring a target price of the effective offline commodity according to the optimal price sorting algorithm by changing a plurality of corresponding price levels according to the location characteristic information and the commodity price level factor when the commodity price level factor is changed, wherein the plurality of price levels are determined according to a plurality of offline commodity trading places, and the plurality of offline commodity trading places comprise the offline commodity trading places.

In an optional embodiment, the pushing module 809 further includes:

the pushing unit is used for pushing the effective price tags to the big data processing device through a Kafka technology, and the big data processing device conducts data transmission decoupling on the received effective price tags in an asynchronous calling mode; and pushing the classified effective price tags to a price tag system through the big data processing device, wherein the classified effective price tags are obtained by classifying and processing the effective price tags through the big data processing device according to the pushing purpose of the effective price tags obtained after decoupling.

For specific limitations of the valid price tag pushing device, reference may be made to the above limitations of the valid price tag pushing method, which are not described herein again. The modules in the effective price tag pushing device can be wholly or partially realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 12. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used to store relevant data involved in the valid price tag push method. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement an efficient price tag push method.

Those skilled in the art will appreciate that the architecture shown in fig. 12 is a block diagram of only a portion of the architecture associated with the subject application, and is not intended to limit the computing device to which the subject application may be applied, and that a computing device may in particular include more or less components than those shown, or combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, the processor implementing the following steps when executing the computer program:

connecting the offline commodity database system through the electronic information platform, and receiving commodity data sent by the electronic information platform from the offline commodity database system, wherein the commodity data is commodity data of offline commodities in offline commodity transaction places; extracting commodity state data from the commodity data according to the various state data of the off-line commodities; screening and preprocessing the commodity data according to the commodity state data and a preset screening condition set; when the commodity state data meet any one or more screening conditions in the screening condition set, determining the offline commodity as an effective offline commodity; and acquiring the target price of the effective offline commodity, and pushing the target price as an effective price tag of the offline commodity.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

and sending commodity data receiving failure information to the electronic information platform, so that when the offline commodity database system inquires the commodity data receiving failure information from the electronic information platform, distributing logs according to the commodity data in the electronic information platform and distributing corresponding commodity data through the electronic information platform.

In one embodiment, the commodity state data includes commodity sales state data, commodity inventory state data and commodity validity period state data; when the processor executes the computer program to determine the offline commodity as the effective offline commodity when the commodity state data meets any one or more screening conditions in the screening condition set, the following steps are specifically realized:

when the commodity sales state data meet the sales state screening conditions in the screening condition set, setting a first effective mark for the commodities under the line; when the inventory state data of the commodities meet the inventory state screening conditions in the screening condition set, setting a second effective mark for the commodities under the line; when the commodity validity period state data meet the valid state screening conditions in the screening condition set, setting a third valid mark for the commodities under the line; when the first effective mark, the second effective mark or the third effective mark exists in the offline commodity, determining the offline commodity as an effective offline commodity; or, when the first effective mark, the second effective mark and the third effective mark exist in the offline commodity, determining the offline commodity as the effective offline commodity.

In one embodiment, the processor executes the computer program to realize the following steps when the first valid flag is set for the next commodity when the commodity sales status data meets the sales status screening condition in the screening condition set:

when the commodity under the line is in a selling state, a first selling state, a selling state within preset days or a sold state within preset days according to the commodity selling state data, the commodity selling state data is determined to meet the selling state screening condition, and a first effective mark is set for the commodity under the line.

The processor executes the computer program to realize the following steps when the second valid flag is set for the commodity data when the commodity inventory state data meets the inventory state screening condition in the screening condition set:

and when the commodity inventory state data is in a late sale state, an imminent state or a in-transit state, determining that the commodity inventory state data meets inventory state screening conditions, and setting a second effective mark for the commodities under the line.

The processor executes the computer program to realize the following steps when the third valid flag is set for the commodity data when the commodity validity period state data meets the valid state screening condition in the screening condition set:

and when the commodity validity period state data is in the preset time period value range, determining that the commodity validity period state data meets the validity state screening condition, and setting a third validity mark for the commodity under the line.

In one embodiment, when the processor executes the computer program to achieve the above-mentioned obtaining of the target price of the valid offline good, the following steps are specifically implemented:

acquiring commodity identification information of effective offline commodities from a commodity management system; acquiring commodity selling price information of effective off-line commodities from a commodity pricing system according to the commodity identification information; the method comprises the steps that location characteristic information of an off-line commodity trading location is obtained from an off-line commodity trading location management system; and obtaining the target price of the effective offline commodity according to the place characteristic information and the commodity selling price information.

In one embodiment, when the processor executes the computer program to obtain the target price of the effective offline commodity according to the location characteristic information and the commodity selling price information, the following steps are specifically realized:

acquiring a commodity price type factor, a commodity price shelf factor, a commodity price amount factor and a commodity price level factor from commodity selling price information; when the commodity price type factor is changed, changing the corresponding conventional price type, the sales promotion price type and the member price type according to the site characteristic information and the commodity price type factor, and obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm; when the commodity price schedule factor is changed, the target price of the commodity under the effective line is obtained through a price optimal sorting algorithm according to the instant effective schedule, the future effective schedule and the failed schedule corresponding to the place characteristic information and the commodity price schedule factor; when the commodity price amount factor is changed, obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm according to the place characteristic information and the amount of the increase amount, the amount of the decrease amount and the amount of the unchanged amount corresponding to the change of the commodity price amount factor; when the commodity price level factor is changed, a plurality of corresponding price levels are changed according to the place characteristic information and the commodity price level factor, the target price of the effective offline commodity is obtained through a price optimal ordering algorithm, the price levels are determined according to the offline commodity trading places, and the offline commodity trading places are included in the offline commodity trading places.

In one embodiment, when the processor executes the computer program to push the target price as the effective price tag and push the target price as the effective price tag, the following steps are specifically implemented:

the effective price tags are pushed to a big data processing device through a Kafka technology, and the big data processing device conducts data transmission decoupling on the received effective price tags in an asynchronous calling mode; and pushing the classified effective price tags to a price tag system through the big data processing device, wherein the classified effective price tags are obtained by classifying and processing the effective price tags through the big data processing device according to the pushing purpose of the effective price tags obtained after decoupling.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

connecting the offline commodity database system through the electronic information platform, and receiving commodity data sent by the electronic information platform from the offline commodity database system, wherein the commodity data is commodity data of offline commodities in offline commodity transaction places; extracting commodity state data from the commodity data according to the various state data of the off-line commodities; screening and preprocessing the commodity data according to the commodity state data and a preset screening condition set; when the commodity state data meet any one or more screening conditions in the screening condition set, determining the offline commodity as an effective offline commodity; and acquiring the target price of the effective offline commodity, and pushing the target price as an effective price tag of the offline commodity.

In one embodiment, the computer program when executed by the processor performs the further steps of:

and sending commodity data receiving failure information to the electronic information platform, so that when the offline commodity database system inquires the commodity data receiving failure information from the electronic information platform, distributing logs according to the commodity data in the electronic information platform and distributing corresponding commodity data through the electronic information platform.

In one embodiment, the commodity state data includes commodity sales state data, commodity inventory state data and commodity validity period state data; when the computer program is executed by the processor to realize that the offline commodity is determined to be the effective offline commodity when the commodity state data meets any one or more screening conditions in the screening condition set, the following steps are specifically realized:

when the commodity sales state data meet the sales state screening conditions in the screening condition set, setting a first effective mark for the commodities under the line; when the inventory state data of the commodities meet the inventory state screening conditions in the screening condition set, setting a second effective mark for the commodities under the line; when the commodity validity period state data meet the valid state screening conditions in the screening condition set, setting a third valid mark for the commodities under the line; when the first effective mark, the second effective mark or the third effective mark exists in the offline commodity, determining the offline commodity as an effective offline commodity; or, when the first effective mark, the second effective mark and the third effective mark exist in the offline commodity, determining the offline commodity as the effective offline commodity.

In one embodiment, the computer program is executed by the processor to implement the above-mentioned steps when the first valid flag is set for the next commodity when the commodity sales status data meets the sales status screening condition in the screening condition set:

when the commodity under the line is in a selling state, a first selling state, a selling state within preset days or a sold state within preset days according to the commodity selling state data, the commodity selling state data is determined to meet the selling state screening condition, and a first effective mark is set for the commodity under the line.

The computer program is executed by the processor to realize the following steps when the second valid flag is set for the commodity data when the commodity inventory state data meets the inventory state screening condition in the screening condition set:

and when the commodity inventory state data is in a late sale state, an imminent state or a in-transit state, determining that the commodity inventory state data meets inventory state screening conditions, and setting a second effective mark for the commodities under the line.

The computer program is executed by the processor to realize the following steps when the third validity flag is set for the commodity data when the commodity validity period status data meets the validity status screening condition in the screening condition set:

and when the commodity validity period state data is in the preset time period value range, determining that the commodity validity period state data meets the validity state screening condition, and setting a third validity mark for the commodity under the line.

In one embodiment, the computer program when executed by the processor for obtaining the target price of the valid offline good specifically realizes the following steps:

acquiring commodity identification information of effective offline commodities from a commodity management system; acquiring commodity selling price information of effective off-line commodities from a commodity pricing system according to the commodity identification information; the method comprises the steps that location characteristic information of an off-line commodity trading location is obtained from an off-line commodity trading location management system; and obtaining the target price of the effective offline commodity according to the place characteristic information and the commodity selling price information.

In one embodiment, when the computer program is executed by the processor to achieve the above-mentioned obtaining the target price of the valid offline commodity according to the location characteristic information and the commodity selling price information, the following steps are specifically achieved:

acquiring a commodity price type factor, a commodity price shelf factor, a commodity price amount factor and a commodity price level factor from commodity selling price information; when the commodity price type factor is changed, changing the corresponding conventional price type, the sales promotion price type and the member price type according to the site characteristic information and the commodity price type factor, and obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm; when the commodity price schedule factor is changed, the target price of the commodity under the effective line is obtained through a price optimal sorting algorithm according to the instant effective schedule, the future effective schedule and the failed schedule corresponding to the place characteristic information and the commodity price schedule factor; when the commodity price amount factor is changed, obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm according to the place characteristic information and the amount of the increase amount, the amount of the decrease amount and the amount of the unchanged amount corresponding to the change of the commodity price amount factor; when the commodity price level factor is changed, a plurality of corresponding price levels are changed according to the place characteristic information and the commodity price level factor, the target price of the effective offline commodity is obtained through a price optimal ordering algorithm, the price levels are determined according to the offline commodity trading places, and the offline commodity trading places are included in the offline commodity trading places.

In one embodiment, when the computer program is executed by the processor to implement the above pushing the target price as the effective price tag and pushing the target price as the effective price tag, the following steps are specifically implemented:

the effective price tags are pushed to a big data processing device through a Kafka technology, and the big data processing device conducts data transmission decoupling on the received effective price tags in an asynchronous calling mode; and pushing the classified effective price tags to a price tag system through the big data processing device, wherein the classified effective price tags are obtained by classifying and processing the effective price tags through the big data processing device according to the pushing purpose of the effective price tags obtained after decoupling.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A valid price tag push method, the method comprising:

connecting an offline commodity database system through an electronic information platform, and receiving commodity data sent by the electronic information platform to the offline commodity database system, wherein the commodity data is commodity data of offline commodities in an offline commodity transaction place;

extracting commodity state data from the commodity data according to the multiple state data of the offline commodity; screening and preprocessing the commodity data according to the commodity state data and a preset screening condition set;

when the commodity state data meet any one or more screening conditions in the screening condition set, determining the offline commodity as an effective offline commodity;

and acquiring the target price of the effective offline commodity, and pushing the target price as an effective price tag of the offline commodity.

2. The method of claim 1, further comprising:

and sending commodity data receiving failure information to the electronic information platform, so that when the offline commodity database system inquires the commodity data receiving failure information from the electronic information platform, distributing logs according to the commodity data in the electronic information platform and distributing corresponding commodity data through the electronic information platform.

3. The method of claim 1, wherein the commodity status data comprises commodity sales status data, commodity inventory status data, and commodity expiration date status data;

when the commodity state data meets any one or more screening conditions in the screening condition set, determining the offline commodity as an effective offline commodity comprises:

when the commodity sales state data meet the sales state screening conditions in the screening condition set, setting a first effective mark for the offline commodity;

when the inventory state data of the commodities meet inventory state screening conditions in the screening condition set, setting a second effective mark for the offline commodities;

when the commodity validity period state data meet valid state screening conditions in the screening condition set, setting a third valid mark for the offline commodity;

determining the offline commodity as an effective offline commodity when the first effective mark, the second effective mark or the third effective mark exists in the offline commodity; or the like, or, alternatively,

and when the first effective mark, the second effective mark and the third effective mark exist in the offline commodity, determining the offline commodity as an effective offline commodity.

4. The method according to claim 3, wherein the setting a first valid flag for the offline commodity when the commodity sales status data satisfies the sales status screening condition in the screening condition set comprises:

when the offline commodity is determined to be in a selling state, a first selling state, a selling state within preset days or a sold state within preset days according to the commodity selling state data, determining that the commodity selling state data meets the selling state screening condition, and setting a first effective mark for the offline commodity;

when the inventory state data of the commodity meets the inventory state screening conditions in the screening condition set, setting a second valid mark for the commodity data, wherein the second valid mark comprises:

when the commodity inventory state data is in a late-selling state, an imminent state or an in-transit state, determining that the commodity inventory state data meets the inventory state screening condition, and setting a second effective mark for the offline commodity;

when the commodity validity period state data meets the valid state screening conditions in the screening condition set, setting a third valid flag for the commodity data, including:

and when the commodity validity period state data is within a preset time period value range, determining that the commodity validity period state data meets the valid state screening condition, and setting a third valid mark for the offline commodity.

5. The method of any one of claims 1-4, wherein said obtaining a target price for said valid offline good comprises:

acquiring commodity identification information of the effective offline commodity from a commodity management system;

acquiring commodity selling price information of the effective offline commodities from a commodity pricing system according to the commodity identification information;

the method comprises the steps that location characteristic information of an off-line commodity trading location is obtained from an off-line commodity trading location management system;

and acquiring the target price of the effective offline commodity according to the place characteristic information and the commodity selling price information.

6. The method of claim 5, wherein the obtaining the target price of the valid offline good according to the location characteristic information and the good selling price information comprises:

acquiring a commodity price type factor, a commodity price shelf factor, a commodity price amount factor and a commodity price level factor from the commodity selling price information;

when the commodity price type factor is changed, changing a corresponding conventional price type, a sales promotion price type and a member price type according to the place characteristic information and the commodity price type factor, and obtaining a target price of the commodity under the effective line through a price optimal sorting algorithm;

when the commodity price schedule factor is changed, acquiring the target price of the commodity under the effective line through a price optimal sorting algorithm according to the site characteristic information and the instant effective schedule, the future effective schedule and the failed schedule corresponding to the commodity price schedule factor change;

when the commodity price amount factor is changed, obtaining the target price of the commodity under the effective line through a price optimal sorting algorithm according to the place characteristic information and the corresponding amount of increase, amount of decrease and amount of invariance of the commodity price amount factor change;

when the commodity price level factor is changed, a plurality of price levels corresponding to the commodity price level factor change are changed according to the place characteristic information, the target price of the effective offline commodity is obtained through a price optimal sorting algorithm, the price levels are determined according to a plurality of offline commodity transaction places, and the offline commodity transaction places comprise the offline commodity transaction places.

7. The method of claim 1, wherein pushing the target price as an effective price tag comprises:

the effective price tags are pushed to a big data processing device through a Kafka technology, and the big data processing device conducts data transmission decoupling on the received effective price tags in an asynchronous calling mode;

and pushing the classified effective price tags to a price tag system through the big data processing device, wherein the classified effective price tags are obtained by classifying and processing the effective price tags by the big data processing device according to the pushing purpose of the effective price tags obtained after decoupling.

8. A valid price tag pusher, characterized in that the device comprises:

the receiving module is used for connecting the offline commodity database system through the electronic information platform and receiving commodity data which is issued by the electronic information platform according to the commodity data in the offline commodity database system, wherein the commodity data is commodity data of offline commodities in offline commodity transaction places;

the extraction module is used for extracting commodity state data from the commodity data according to the various state data of the off-line commodities;

the screening module is used for screening and preprocessing the commodity data according to the commodity state data and a preset screening condition set;

the determining module is used for determining the offline commodity as an effective offline commodity when the commodity state data meets any one or more screening conditions in the screening condition set;

and the pushing module is used for acquiring the target price of the effective offline commodity and pushing the target price as an effective price tag of the offline commodity.

9. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the steps of the method of any of claims 1 to 7 are implemented when the computer program is executed by the processor.

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 method of any one of claims 1 to 7.

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