CN114418653B

CN114418653B - Anti-channel conflict processing method based on NFC (near field communication) label

Info

Publication number: CN114418653B
Application number: CN202210327827.8A
Authority: CN
Inventors: 季有为; 李晓飞
Original assignee: Xindian Zhilian Beijing Technology Co ltd
Current assignee: Xindian Zhilian Beijing Technology Co ltd
Priority date: 2022-03-31
Filing date: 2022-03-31
Publication date: 2022-06-14
Anticipated expiration: 2042-03-31
Also published as: CN114418653A

Abstract

The embodiment of the invention relates to an NFC label-based anti-channel conflict processing method, which comprises the following steps: collecting warehousing information to generate a first warehousing data set; inquiring a matched superior stream transfer point name field from the stream transfer point grade table to be used as a first superior stream transfer point name; inquiring matched data from the circulation point ex-warehouse information statistical table to form a first ex-warehouse data set; when the first ex-warehouse data set is empty, the channel conflict judgment identifier is set to be channel conflict, otherwise, the in-warehouse information is checked to generate a first check result; if the first check result is that the total amount of the goods to be put in storage is excessive, the positions of the warehoused warehouses are not matched or the warehouse quantity of the warehoused warehouses is excessive, the goods fleeing judgment mark is set as the goods fleeed; and when the channel conflict judgment mark indicates channel conflict, the current circulation point is counted into a channel conflict circulation point blacklist, the warehoused commodities are recalled, and the commodities are stopped from being continuously delivered. By the method and the system, the anti-channel conflict management capability of a manufacturer can be enhanced, and the anti-channel conflict management efficiency of the manufacturer is improved.

Description

Anti-channel conflict processing method based on NFC (near field communication) label

Technical Field

The invention relates to the technical field of data processing, in particular to an anti-channel conflict processing method based on an NFC label.

Background

And the channel conflict refers to that a dealer places a distribution agreement and benefits the manufacturer for a long time to do the transregional price reduction sale of products. This is also common in the traditional tobacco industry. The traditional anti-channel conflict operation of each cigarette factory is to send investigators to each large area for field investigation. The operation mode is greatly influenced by human factors, and a good data statistical effect cannot be achieved.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an anti-channel conflict processing method based on an NFC label, an electronic device and a computer readable storage medium, loading Near Field Communication (NFC) tags on commodities, registering ex-warehouse information in an ex-warehouse information statistical table at each transfer point (supplier/sales merchant) of commodity logistics when the commodities are processed to be ex-warehouse, when commodities are handled at each flow point to be warehoused, corresponding warehousing information is obtained through statistics based on NFC label information, then current flow point warehousing information is compared based on warehouse-out information registered in a flow point warehouse-out information statistical table by a previous-stage flow point, whether goods fleeing behaviors occur at the current flow point is identified, if the goods fleeing behaviors occur, the flow point is immediately brought into a black list of the goods fleeing flow point, and corresponding commodity recall and commodity supply stop processing are executed. By the method and the device, human factor interference in anti-channel conflict management can be avoided, anti-channel conflict management capability of a manufacturer can be enhanced, and anti-channel conflict management efficiency of the manufacturer can be improved.

In order to achieve the above object, a first aspect of the embodiments of the present invention provides an NFC tag-based anti-channel conflict processing method, where the method includes:

the method comprises the steps that warehousing information collection is carried out on a plurality of received first commodities in the same batch at each level of circulation point to generate a corresponding first warehousing data set; loading a first NFC tag on each first commodity; the first NFC label stores a first uniform commodity name of the batch of commodities; the first set of binned data comprises a first streaming point name;

according to the first streaming point name, inquiring a matched superior streaming point name field from a preset streaming point grade table to serve as a corresponding first superior streaming point name;

according to the first superior circulation point name, the first commodity name and the first circulation point name, matching data are inquired from a preset circulation point warehouse-out information statistical table to form a corresponding first warehouse-out data set;

when the first ex-warehouse data set is empty, setting a channel conflict judgment identifier as channel conflict;

when the first ex-warehouse data set is not empty, performing in-warehouse and out-warehouse information check processing according to the first ex-warehouse data set and the first in-warehouse data set to generate a corresponding first check result;

If the first check result is that the total amount of the goods to be put into storage is excessive, the positions of the warehoused warehouses are not matched or the warehouse quantity of the warehoused warehouses is excessive, the goods fleeing judgment mark is set as the goods fleeed;

and when the channel conflict judgment mark is the channel conflict, taking the current transfer point as the channel conflict transfer point to be counted into a channel conflict transfer point blacklist, recalling the warehousing commodities of the current transfer point, and stopping continuously delivering the commodities to the current transfer point.

Preferably, the first warehousing data set comprises the first transfer point name, the first warehousing commodity name, a first warehousing total amount and a plurality of first warehousing warehouse data groups; the first warehousing warehouse data group comprises a first warehousing warehouse position and a first warehouse warehousing number; the first warehousing total amount is the sum of all the warehousing amounts of the first storerooms;

the circulation point grade table comprises a plurality of circulation point grade records; the circulation point grade record comprises a circulation point name field, a circulation point type field, a circulation point grade field and a superior circulation point name field; the stream transfer point type field comprises a manufacturer type, a supplier type and a sales merchant type; the stream transfer point grade field is empty when the corresponding stream transfer point type field is a manufacturer type;

The flow point warehouse-out information statistical table comprises a plurality of flow point warehouse-out information statistical records; the flow point warehouse-out information statistical record comprises a warehouse-out flow point name field, a warehouse-out commodity name field, a lower-level flow point planned warehouse-in total field and a plurality of lower-level flow point warehouse field sets; the lower-level stream transfer point storehouse field group comprises a planned warehousing storehouse position field and a storehouse planned warehousing quantity field; the lower-level stream transfer point planned warehousing total field is the sum of all the warehouse planned warehousing quantity fields;

the first ex-warehouse data set comprises a first planned ex-warehouse total amount and a plurality of first warehouse field groups; the first warehouse field group comprises a first planned warehousing warehouse location and a first warehouse planned warehousing quantity.

Preferably, the acquiring, at each level of circulation point, warehousing information of the received multiple first commodities in the same batch to generate a corresponding first warehousing data set specifically includes:

when a current flow point puts a plurality of first commodities of a current batch into a warehouse, acquiring a flow point name of the current flow point as a corresponding first flow point name; reading the first commodity name from the first NFC label of the first commodity based on NFC read-write equipment to serve as the corresponding first warehousing commodity name; counting the total amount of the first commodities in the current batch as the corresponding total amount of the first warehouse; counting the warehouse sorting information of one or more warehouses selected by the current transfer point for performing batch warehouse sorting on a plurality of first commodities of the current batch to generate a plurality of corresponding first warehouse sorting data sets; each warehouse-dividing warehousing information comprises warehouse position information and warehouse warehousing quantity information, each first warehouse-in warehouse data group corresponds to one warehouse-dividing warehousing information, the first warehouse-in warehouse position of the first warehouse-in warehouse data group is the warehouse position information corresponding to the warehouse-dividing warehousing information, and the first warehouse-in quantity of the first warehouse-in warehouse data group is the warehouse-in quantity information corresponding to the warehouse-dividing warehousing information;

And the first transfer point name, the first warehousing commodity name, the first warehousing total amount and the plurality of first warehousing storeroom data groups form a corresponding first warehousing data set.

Preferably, the querying, according to the first streaming point name, a matched superior streaming point name field from a preset streaming point level table as a corresponding first superior streaming point name specifically includes:

inquiring the circulation point grade table, and recording the circulation point grade record of which the circulation point name field is matched with the first circulation point name as a first record; and extracting the superior stream transfer point name field of the first record as the corresponding first superior stream transfer point name.

Preferably, the querying matching data from a preset circulation point ex-warehouse information statistical table according to the first superior circulation point name, the first commodity name and the first circulation point name to form a corresponding first ex-warehouse data set specifically includes:

inquiring the circulation point ex-warehouse information statistical table, and recording the circulation point ex-warehouse information statistical record, in which the ex-warehouse circulation point name field is matched with the first superior circulation point name, the ex-warehouse commodity name field is matched with the first commodity name, and the inferior circulation point name field is matched with the first circulation point name, as a second record;

Using the lower-level stream transfer point planned warehousing total amount field of the second record as the corresponding first planned ex-warehouse total amount; taking each lower-level stream transfer point storehouse field group of the second record as the corresponding first storehouse field group; the first planned warehousing warehouse position of the first warehouse field group is the planned warehousing warehouse position field corresponding to the lower-level stream transfer point warehouse field group, and the first warehouse planned warehousing quantity of the first warehouse field group is the warehouse planned warehousing quantity field corresponding to the lower-level stream transfer point warehouse field group;

and forming a corresponding first ex-warehouse data set by the obtained first planned ex-warehouse total amount and the plurality of first warehouse field groups.

Preferably, when the first ex-warehouse data set is not empty, performing checking processing on the in-warehouse and out-warehouse information according to the first ex-warehouse data set and the first in-warehouse data set to generate a corresponding first checking result, specifically including:

when the first ex-warehouse data set is not empty, carrying out numerical comparison on the first warehousing total amount of the first warehousing data set and the first planned ex-warehouse total amount of the first ex-warehouse data set;

When the first warehousing total amount is larger than the first planned ex-warehouse total amount, setting the first checking result as warehousing total amount excess;

when the first planned ex-warehouse total amount is equal to the first warehousing total amount, counting the total amount of the first planned warehousing warehouse position of the first ex-warehouse data set to generate a corresponding first amount, counting the total amount of the first warehousing warehouse position of the first warehousing data set to generate a corresponding second amount, and judging whether the first amount is equal to the second amount;

when the first quantity is not equal to the second quantity, setting the first checking result as the position of the warehouse in storage is not matched;

when the first quantity is equal to the second quantity, the first planned warehousing warehouse location and the first warehouse entry location, which have the same warehouse location information in the first warehouse-out data set and the first warehouse entry data set, are gathered into one category, and the same warehouse location information of the same category is extracted as the corresponding first category matching warehouse location; identifying whether the first planned warehousing storehouse position and the first planned warehousing storehouse position which cannot be clustered exist in the first ex-warehouse data set and the first warehousing data set after clustering is completed;

When the first planned warehousing storehouse position and the first planned warehousing storehouse position which cannot be clustered exist in the first ex-warehouse data set and the first warehousing data set, setting the first checking result as mismatching of warehousing storehouse positions;

when the first planned warehousing warehouse location and the first planned warehousing warehouse location which cannot be clustered do not exist in the first ex-warehouse data set and the first warehousing data set, comparing the numerical value size relationship between the first warehouse warehousing quantity corresponding to each first class matching warehouse location and the first warehouse planned warehousing quantity; when the warehousing quantity of the first storerooms corresponding to any one first-class matching storeroom position is larger than the planned warehousing quantity of the first storerooms, setting the first checking result as the excess of the warehousing quantity of the storerooms; and when the warehousing quantity of the first storerooms corresponding to the positions of all the first-class matching storerooms is equal to the planned warehousing quantity of the first storerooms, setting the first checking result as the warehouse-in and warehouse-out check to be correct.

Preferably, the method further comprises:

when a plurality of first commodities of a specified batch are sent to a next circulation point from a previous circulation point, recording the delivery time of the previous circulation point to generate corresponding first delivery time; configuring a corresponding first delivery time period for the first delivery time;

Tracking a second warehousing data set which is collected by the next-level transfer point and corresponds to a plurality of first commodities in the specified batch periodically within the first delivery time period from the first delivery time; and if the next-level transfer point cannot generate the second warehousing data set all the time in the first goods delivery time period, taking the next-level transfer point as the goods transfer point to be counted into a goods transfer point blacklist, recalling a plurality of first commodities of the specified batch sent to the next-level transfer point, and stopping continuously delivering the commodities to the next-level transfer point.

A second aspect of an embodiment of the present invention provides an electronic device, including: a memory, a processor, and a transceiver;

the processor is configured to be coupled to the memory, read and execute instructions in the memory, so as to implement the method steps of the first aspect;

the transceiver is coupled to the processor, and the processor controls the transceiver to transmit and receive messages.

A third aspect of embodiments of the present invention provides a computer-readable storage medium storing computer instructions that, when executed by a computer, cause the computer to perform the method of the first aspect.

The embodiment of the invention provides an NFC label-based anti-channel conflict processing method, electronic equipment and a computer-readable storage medium, wherein an NFC label is loaded on a commodity, when each transfer point (supplier/sales merchant) of commodity logistics processes the commodity to be delivered from a warehouse, warehouse-out information is registered in a warehouse-out information statistical table of the transfer point, when each transfer point processes the commodity to be warehoused, corresponding warehouse-in information is obtained through statistics on the basis of the NFC label information, then the warehouse-in information of the current transfer point is compared on the basis of the warehouse-out information registered in the warehouse-out information statistical table of the transfer point of the previous stage of transfer point, so that whether the current transfer point has a channel conflict behavior or not is identified, and if the channel conflict behavior occurs, the transfer point is immediately brought into a black list of the channel conflict transfer point and corresponding commodity recall and commodity supply stop processing is executed. By the method and the device, human factor interference in anti-channel conflict management is avoided, anti-channel conflict management capability of a manufacturer is enhanced, and anti-channel conflict management efficiency of the manufacturer is improved.

Drawings

Fig. 1 is a schematic diagram of an anti-channel conflict processing method based on an NFC tag according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an electronic device according to a second embodiment of the present invention.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Fig. 1 is a schematic diagram of an anti-channel conflict processing method based on an NFC tag according to an embodiment of the present invention, and as shown in fig. 1, the method mainly includes the following steps:

step 1, collecting warehousing information of a plurality of received first commodities of the same batch at each level of flow points to generate a corresponding first warehousing data set;

each first commodity is loaded with a first NFC tag; the first NFC label stores a first uniform commodity name of the batch of commodities; the first warehousing data set comprises a first transfer point name, a first warehousing commodity name, a first warehousing total amount and a plurality of first warehousing storehouse data groups; the first warehousing warehouse data group comprises a first warehousing warehouse position and a first warehouse warehousing number; the first warehousing total amount is the sum of all the warehousing amounts of the first warehouses;

Here, when each commodity, that is, the first commodity leaves the factory, an NFC tag, that is, the first NFC tag, is loaded by default; writing a plurality of data related to the current commodity on each first NFC tag, wherein the data comprise commodity name data, namely a first commodity name; sending the commodities sent at the commodity circulation point according to batches, and defaulting that the first commodity names of all first commodities are the same in the same batch; after receiving goods, the goods circulation point needs to enter a warehouse for the goods according to one or more storehouses appointed by a goods distributor, and corresponding warehousing information is a first warehousing data set; the first transfer point name is the name information of the current transfer point for receiving goods; the first warehousing commodity name is commodity information for receiving goods; the first warehousing total amount is the total amount of the received commodities; each first warehousing storehouse data group corresponds to specific warehousing information of one storehouse, the position of the first warehousing storehouse is position information corresponding to the warehousing storehouse, and the warehousing quantity of the first storehouse is warehousing commodity quantity information corresponding to the warehousing storehouse;

the method specifically comprises the following steps: step 11, when the current flow point puts a plurality of first commodities of the current batch into a warehouse, obtaining the flow point name of the current flow point as a corresponding first flow point name; reading the first commodity name from the first NFC label of the first commodity based on the NFC read-write equipment to serve as a corresponding first warehousing commodity name; counting the total amount of the first commodities in the current batch as a corresponding first warehousing total amount; counting the warehouse sorting information of one or more warehouses selected by the current transfer point for performing batch warehouse sorting on a plurality of first commodities of the current batch to generate a plurality of corresponding first warehouse sorting data sets; each warehouse-in sub-warehouse information comprises warehouse position information and warehouse-in quantity information, each first warehouse-in warehouse data group corresponds to one warehouse-in sub-warehouse information, the first warehouse-in warehouse position of the first warehouse-in warehouse data group is the warehouse position information corresponding to the warehouse-in sub-warehouse information, and the first warehouse-in quantity of the first warehouse-in warehouse data group is the warehouse-in quantity information corresponding to the warehouse-in sub-warehouse information;

For example, the first commodity is specifically a cigarette commodity, and a first commodity name stored on a first NFC tag of the first commodity is referred to as cigarette 1; the current transfer point is a first-level tobacco supplier B1, the last transfer point of the first-level tobacco supplier B1 is a tobacco manufacturer A, three storehouses (storehouses 1, 2 and 3) in subordinated storehouses of the first-level tobacco supplier B1 obtain the authorization of the tobacco manufacturer A and can be used for storing cigarette commodities of the tobacco manufacturer A, and the position information of the storehouses 1, 2 and 3 is storehouse positions 1, 2 and 3; the tobacco manufacturer A sends a batch of 100 cigarette commodities with first trade names called cigarettes 1 to a primary tobacco supplier B1, and the tobacco manufacturer A delivers the cigarette commodities to storehouses 1, 2 and 3 of a primary tobacco supplier B1 according to the quantities of 10, 20 and 70 respectively before delivery;

then, the first circulation point name corresponding to the current circulation point is the first-class tobacco supplier B1; the primary tobacco supplier B1 performs warehousing operation when receiving the batch of cigarette goods, under a normal condition that no goods fleeing occurs, the first warehousing commodity name read from the first NFC tag by the primary tobacco supplier B1 based on the NFC read-write device should be cigarette 1, the counted first warehousing total amount should be 100, the number of the first warehousing warehouse data groups is 3, the corresponding 1 st warehousing warehouse data group should be (the first warehousing warehouse position = warehouse position 1, the first warehouse warehousing number = 10), the 2 nd first warehousing warehouse data group should be (the first warehousing warehouse position = warehouse position 2, the first warehouse warehousing number = 20), and the 3 rd first warehousing warehouse data group should be (the first warehousing warehouse position = warehouse position 3, the first warehouse warehousing number = 70);

And step 12, forming a corresponding first warehousing data set by the first transfer point name, the first warehousing commodity name, the first warehousing total amount and the plurality of first warehousing warehouse data groups.

For example, the first warehousing commodity name is cigarette 1, the first warehousing total amount is 100, the number of the first warehousing warehouse data sets is 3, the 1 st warehousing warehouse data set is (first warehousing warehouse position = warehouse position 1, first warehouse warehousing quantity = 10), the 2 nd first warehousing warehouse data set is (first warehousing warehouse position = warehouse position 2, first warehouse warehousing quantity = 20), and the 3 rd first warehousing warehouse data set is (first warehousing warehouse position = warehouse position 3, first warehouse warehousing quantity = 70);

then, the first warehousing data set should be [ first warehousing commodity name = cigarette 1, first warehousing total amount =100, 1 st first warehousing warehouse data group (first warehousing warehouse position = warehouse position 1, first warehouse warehousing number = 10), 2 nd first warehousing warehouse data group (first warehousing warehouse position = warehouse position 2, first warehouse warehousing number = 20), 3 rd first warehousing warehouse data group (first warehousing warehouse position = warehouse position 3, first warehouse warehousing number = 70) ].

Step 2, according to the first transfer point name, inquiring a matched superior transfer point name field from a preset transfer point grade table as a corresponding first superior transfer point name;

the circulation point grade table comprises a plurality of circulation point grade records; the circulation point grade record comprises a circulation point name field, a circulation point type field, a circulation point grade field and a superior circulation point name field; the flow transfer point type field comprises a manufacturer type, a supplier type and a sales merchant type; the stream transfer point grade field is empty when the corresponding stream transfer point type field is the manufacturer type;

the method specifically comprises the following steps: inquiring a circulation point grade table, and recording the circulation point grade record of which the circulation point name field is matched with the first circulation point name as a first record; and extracting the superior stream transfer point name field of the first record as the corresponding first superior stream transfer point name.

Here, the streaming point level table is used to store the name, type and level information of each streaming point; each circulation point grade record corresponds to a circulation point; the name field of the stream transfer point is the name information of the stream transfer point; the circulation link of the commodity in the embodiment of the invention comprises a manufacturer, a supplier and a sales merchant, wherein the manufacturer is responsible for the production of the commodity, the supplier is responsible for the channel circulation of the commodity, the sales merchant is responsible for the final sale of the commodity to an individual, the circulation point type field is the manufacturer type and indicates that the current circulation point is the manufacturer of the commodity, the circulation point type field is the supplier type and indicates that the current circulation point is the channel supplier of the commodity, and the circulation point type field is the sales merchant type and indicates that the current circulation point is the commodity; the flow point level field is the level of the flow point in the type, because the manufacturer has no level, the flow point level field is empty when the corresponding flow point type field is the manufacturer type, and the supplier can have a multi-level supplier (such as the relationship between the general agent and the subordinate distribution agents), and the selling merchant can also have a multi-level selling merchant (such as the relationship between the retail group and the superior of each level under the flag, and the retail store), so the flow point level field can only include one level (no inferior distribution agent or superior of each level, and the retail store) when the corresponding flow point type field is the manufacturer type or the selling merchant type, and can also include multiple levels (with one level as the maximum, the level-by-level subdivision is performed downwards like the second level, the third level, and the like); the name field of the upper-level transfer point is the name information of the only delivery transfer point corresponding to the transfer point, namely the only ordering party corresponding to the transfer point.

It should be noted that, in order to standardize channel management, the embodiment of the present invention defines the order interface of each transit point by the name field of the upper-level transit point: setting the grade record of the flow point with the flow point type field as the manufacturer type as record 1, and setting the name field of the upper grade flow point of record 1 as null; setting the class record of the flow point with the flow point type field as the supplier type and the flow point class field as the first class as record 2, and the flow point class record corresponding to the name field content of the upper class of the flow point as record 3, and then setting the flow point type field of record 3 as the manufacturer type; if a flow point class record whose flow point type field is a provider type and whose flow point class field is not one level is record 4 and a flow point class record corresponding to the content of its superior flow point name field is record 5, the flow point type field of record 5 should be the provider type and the flow point class field of record 5 = the flow point class field-1 (level) of record 4; if the flow point type field is a type of a sales merchant, the flow point grade record with the flow point grade field as a first level is a record 6, and the flow point grade record corresponding to the content of the upper-level flow point name field is a record 7, the flow point type field of the record 7 should be a manufacturer type or a provider type (when the type of the manufacturer is the manufacturer, the manufacturer is indicated to be supplied by a manufacturer direct distribution channel); if the flow point type field is the type of the selling merchant and the flow point level record whose flow point level field is not one level is record 8 and the flow point level record corresponding to the content of the name field of the upper level flow point is record 9, the flow point type field of record 9 should be the type of the selling merchant and the flow point level field = flow point level field-1 (level) of record 8.

Step 3, according to the first superior circulation point name, the first commodity name and the first circulation point name, matching data are inquired from a preset circulation point warehouse-out information statistical table to form a corresponding first warehouse-out data set;

the circulation point warehouse-out information statistical table comprises a plurality of circulation point warehouse-out information statistical records; the flow point warehouse-out information statistic record comprises a warehouse-out flow point name field, a warehouse-out commodity name field, a lower flow point planned warehouse-in total field and a plurality of lower flow point warehouse field groups; the lower-level stream transfer point storehouse field group comprises a position field of a storehouse planned to be put in storage and a quantity field of the storehouse planned to be put in storage; the lower-level stream transfer point planned warehousing total field is the sum of all warehouse planned warehousing quantity fields;

the flow point export library information statistical table is used for counting the delivery information of all flow points with delivery functions; each flow point outbound library information statistic record corresponds to the delivery information of one delivery batch of one flow point; the ex-warehouse transfer point name field is the name of the transfer point; the ex-warehouse commodity name field is the commodity name of the batch; the lower-level stream transfer point name field is the name of the buyer of the batch of commodities, namely the name of the warehouse-in receiver of the batch of commodities; the lower-level stream transfer point planned warehousing total amount field is the delivery total amount of the batch; each lower-level transfer point storehouse field group corresponds to a storehouse of a lower-level transfer point, the position field of the planned warehousing storehouse is the position information of the storehouse, and the field of the planned warehousing quantity of the storehouse is the total delivery quantity appointed by the storehouse;

The first ex-warehouse data set comprises a first planned ex-warehouse total amount and a plurality of first warehouse field groups; the first storehouse field group comprises a first planned warehousing storehouse position and a first storehouse planned warehousing quantity;

here, the first ex-warehouse data set is an information subset of a certain matched information statistical record of the out-warehouse information of the transfer point in the statistical table, the first planned ex-warehouse total amount corresponds to a lower-level transfer point planned in-warehouse total amount field of the matched record, each first warehouse field group corresponds to each lower-level transfer point warehouse field group of the matched record, the position of the first planned in-warehouse corresponds to a planned in-warehouse position field of the matched record corresponding to the lower-level transfer point warehouse field group, and the planned in-warehouse quantity of the first warehouse corresponds to a planned in-warehouse quantity field of the matched record corresponding to the lower-level transfer point warehouse field group;

here, in the current step 3, a flow point warehouse-out information statistical record matched with the first superior flow point name, the first commodity name and the first flow point name is located from the flow point warehouse-out information statistical table, and a lower flow point planning warehouse-in total amount field and all lower flow point warehouse field sets of the record are extracted to form a first warehouse-out data set;

The method specifically comprises the following steps: step 31, inquiring a circulation point ex-warehouse information statistical table, matching an ex-warehouse circulation point name field with a first superior circulation point name, matching an ex-warehouse commodity name field with a first commodity name, and recording a circulation point ex-warehouse information statistical record of which a subordinate circulation point name field is matched with the first circulation point name as a second record;

step 32, planning the lower circulation point of the second record into a total warehouse quantity field as a corresponding first planned total warehouse quantity; taking each lower-level stream transfer point storehouse field group of the second record as a corresponding first storehouse field group; the first planned warehousing storehouse position of the first storehouse field group is a planned warehousing storehouse position field corresponding to the lower-level stream transfer point storehouse field group, and the first storehouse planned warehousing quantity of the first storehouse field group is a storehouse planned warehousing quantity field corresponding to the lower-level stream transfer point storehouse field group;

and step 33, forming a corresponding first ex-warehouse data set by the obtained first planned ex-warehouse total amount and the plurality of first warehouse field groups.

For example, it is known that a flow point outbound library information statistic record 1 stored in the flow point outbound library information statistic table specifically includes: the ex-warehouse transfer point name field = tobacco manufacturer a, the ex-warehouse commodity name field = cigarette 1, the lower-level transfer point name field = first-level tobacco supplier B1, the lower-level transfer point planning total stock quantity field =100, and 3 lower-level transfer point stock room field groups: a 1 st lower-level transfer point warehouse field group (a planned warehouse position field = warehouse position 1, a warehouse planned warehouse quantity field = 10), a 2 nd lower-level transfer point warehouse field group (a planned warehouse position field = warehouse position 2, a warehouse planned warehouse quantity field = 20), and a 3 rd lower-level transfer point warehouse field group (a planned warehouse position field = warehouse position 3, a warehouse planned warehouse quantity field = 70); the name of a first upper-level circulation point is known as a tobacco manufacturer A, the name of a first upper-level circulation point is known as a cigarette 1, and the name of the first upper-level circulation point is known as a first-level tobacco supplier B1;

Then, according to the name of the first superior flow point, "tobacco manufacturer a", the first commodity name, "cigarette 1", the first flow point name, "first-level tobacco supplier B1", the flow point ex-warehouse information statistical table is queried, and then the second record can be positioned as the flow point ex-warehouse information statistical record 1; the first ex-warehouse data set formed by extracting the relevant data from the second record should be [ first planned ex-warehouse total amount =100, 1 st first warehouse field group (first planned warehousing warehouse position = warehouse position 1, first warehouse planned warehousing number = 10), 2 nd first warehouse field group (first planned warehousing warehouse position = warehouse position 2, first warehouse planned warehousing number = 20), 3 rd first warehouse field group (first planned warehousing warehouse position = warehouse position 3, first warehouse planned warehousing number = 70) ].

Step 4, when the first ex-warehouse data set is empty, setting a channel conflict judgment identifier as channel conflict; and go to step 7.

Here, under the normal condition that the channel conflict does not occur, each first warehousing data set is corresponding to one first ex-warehouse data set; if the first warehouse-out data set is empty, only one case is found, that is, in step 3, no statistical record of warehouse-out information of the warehouse-out transfer point, where the name field of the warehouse-out transfer point is matched with the name of the first upper-level transfer point, the name field of the warehouse-out commodity is matched with the name of the first commodity, and the name field of the lower-level transfer point is matched with the name of the first warehouse-out transfer point, that is, either the supplier of the commodity warehoused at the current warehouse-out transfer point is not the specified supplier, or the commodity warehoused at the current warehouse-out transfer point is not the delivery commodity of the specified supplier, or the commodity warehoused at the current warehouse-out transfer point is the commodity delivered to other warehouse-out transfer points by the specified supplier.

Step 5, when the first ex-warehouse data set is not empty, checking the information of the ex-warehouse and the information of the first in-warehouse according to the first ex-warehouse data set and the first in-warehouse data set to generate a corresponding first checking result;

the method specifically comprises the following steps: step 51, when the first ex-warehouse data set is not empty, comparing the first warehousing total amount of the first warehousing data set with the first planned ex-warehouse total amount of the first ex-warehouse data set by numerical value;

step 52, when the first warehousing total amount is greater than the first planned ex-warehouse total amount, setting a first check result as the warehousing total amount excess; and go to step 6;

here, in a normal case where no conflict occurs, the first planned ex-warehouse total amount and the first in-warehouse total amount should be equal; the fact that the total amount of the first planned ex-warehouse is larger than the total amount of the first planned ex-warehouse indicates that the commodities which are warehoused at the current circulation point are not all commodities purchased from a specified supplier, and other purchased commodities are mixed, and the condition that the total amount of the warehoused commodities is excessive is regarded as channel conflict, so that the first checking result is set to be the excessive total amount of the warehoused commodities when the total amount of the first planned ex-warehouse is larger than the total amount of the first planned ex-warehouse and the step 6 is carried out to confirm channel conflict;

it should be noted that, when the first warehousing total amount is smaller than the first planned ex-warehouse total amount, the first check result is set as the warehousing total amount is insufficient; and go to step 6;

Step 53, when the first planned warehouse-out total amount is equal to the first warehouse-in total amount, counting the total amount of the first planned warehouse-in warehouse position of the first warehouse-out data set to generate a corresponding first amount, counting the total amount of the first warehouse-in warehouse position of the first warehouse-in data set to generate a corresponding second amount, and judging whether the first amount is equal to the second amount;

step 54, when the first quantity is not equal to the second quantity, setting the first check result as the position mismatch of the warehouse; and go to step 6;

here, in a normal case where no fleeing goods occur, the first number and the second number should be equal; the first quantity is not equal to the second quantity, which indicates that the quantity of warehouse warehouses warehoused at the current circulation point at this time is not matched with the quantity of warehouses dispatched by the specified supplier, and the situation is not matched when the warehoused warehouse positions are brought into the warehouse, and the warehoused warehouse positions are also considered as the channel conflict, so that the embodiment of the invention sets the first checking result as the unmatched warehouse positions and transfers to the step 6 to confirm the channel conflict when the first quantity is not equal to the second quantity;

step 55, when the first quantity is equal to the second quantity, gathering the first planned warehousing warehouse location and the first warehousing warehouse location, which have the same warehouse location information, in the first ex-warehouse data set and the first warehousing data set into one type, and extracting the same warehouse location information of the same type as the corresponding first type matching warehouse location; identifying whether a first planned warehousing storehouse position and a first planned warehousing storehouse position which cannot be clustered exist in the first ex-warehouse data set and the first warehousing data set after clustering is completed;

Step 56, when the first planned warehousing storehouse position and the first planned warehousing storehouse position which cannot be clustered exist in the first ex-warehouse data set and the first warehousing data set, setting a first check result as unmatched warehousing storehouse positions; and go to step 6;

here, under the normal condition that a goods fleeing does not occur, the first planned warehousing warehouse location and the first planned warehousing warehouse location in the first ex-warehouse data set and the first warehousing data set are in one-to-one correspondence, that is, under the normal condition that the goods fleeing does not occur, the situation that the first planned warehousing warehouse location or the first planned warehousing warehouse location which cannot be clustered does not exist; on the contrary, if the first planned warehousing warehouse location and the first planned warehousing warehouse location which cannot be clustered exist in the first ex-warehouse data set and the first warehousing data set, it is indicated that the warehousing warehouse location where the current transfer point warehouses this time is not matched with the warehouse location where the specified supplier directionally delivers goods, and this situation is also included in the warehousing warehouse location and is also considered as a goods fleeing, so that the embodiment of the present invention sets the first check result as the warehousing warehouse location is not matched when the first planned warehousing warehouse location and the first planned warehousing warehouse location which cannot be clustered exist in the first ex-warehouse data set and the first warehousing data set, and transfers to step 6 to confirm the goods fleeing;

Step 57, when the first warehouse-out data set and the first warehouse-in data set do not have the first planned warehouse-in warehouse position and the first planned warehouse-in warehouse position which cannot be clustered, comparing the numerical value size relationship between the first warehouse-in quantity corresponding to each first type of matching warehouse position and the first warehouse planned warehouse-in quantity; when the warehousing quantity of the first storeroom corresponding to any one first-class matching storeroom position is larger than the corresponding planned warehousing quantity of the first storeroom, setting a first checking result as the excess of the warehousing quantity of the storerooms; when the warehousing quantity of the first storeroom corresponding to any one first-class matching storeroom position is smaller than the planned warehousing quantity of the corresponding first storeroom, setting a first checking result as that the warehousing quantity of the storerooms is insufficient; and when the warehousing quantity of the first storehouses corresponding to the positions of all the first-class matching storehouses is equal to the planned warehousing quantity of the first storehouses, setting a first checking result as the warehouse-in and warehouse-out check is correct.

Here, under a normal condition that no goods fleeing occurs, the first planned warehousing warehouse location and the first planned warehousing warehouse location in the first ex-warehouse data set and the first warehousing data set are in one-to-one correspondence, the warehouse location information of the one-to-one correspondence first planned warehousing warehouse location and the first planned warehousing warehouse location is the same (here, the first kind of matching warehouse location), and the delivery quantity corresponding to the first kind of matching warehouse location, that is, the first warehouse planned warehousing quantity and the warehousing quantity, that is, the first warehouse warehousing quantity, should be equal, so that in the embodiment of the present invention, the first check result is set to check the entering and exiting warehouse error when the first warehouse warehousing quantity and the first warehouse planned warehousing quantity corresponding to all the first kind of matching warehouse locations are equal; when the warehousing quantity of the first storeroom corresponding to any one first-class matching storeroom position is larger than the planned warehousing quantity of the first storeroom, the situation that the warehousing quantity of one or more storerooms is larger than the quantity of commodities which are directionally delivered by a specified supplier is indicated, under the situation, commodities purchased by other ways are possibly mixed in the warehousing commodities of the one or more storerooms, and the situation that the warehousing quantity of the storerooms is excessive can be regarded as channel conflict, so that the first check result is set to be the warehouse warehousing quantity excess when the warehousing quantity of the first storeroom corresponding to any one first-class matching storeroom position is larger than the planned warehousing quantity of the first storeroom, and the channel conflict is confirmed by the subsequent step 6; when the warehousing quantity of the first storeroom corresponding to any one first-class matching storeroom position is smaller than the planned warehousing quantity of the corresponding first storeroom, the situation that the warehousing quantity of one or more storerooms is smaller than the quantity of commodities which are dispatched to a specified supplier is shown, and the situation that the warehousing quantity of the storerooms is insufficient is not considered as that the goods fleeing is considered as that the goods are insufficient.

Step 6, identifying the first check result; and if the first check result is that the total amount of warehouse entering is excessive, the positions of warehouse entering are not matched or the warehouse entering amount is excessive, setting the channel conflict judgment identifier as channel conflict.

And 7, when the channel conflict judgment mark indicates channel conflict, taking the current transfer point as a channel conflict transfer point to be counted into a channel conflict transfer point blacklist, recalling the warehousing commodities of the current transfer point, and stopping continuously distributing the commodities to the current transfer point.

Here, the channel conflict judging identifier is used for marking the channel conflict state in the current warehousing action of the current transfer point; once the channel conflict judgment mark indicates that channel conflict exists in the current warehousing behavior of the current transit point, the embodiment of the invention immediately takes the current transit point as the channel conflict transit point and counts the channel conflict transit point into a channel conflict transit point blacklist, and specifically: adding a first flow transfer point name corresponding to the current flow transfer point into a fleeing flow transfer point blacklist; while adding the blacklist, the embodiment of the invention can also immediately recall the commodities which are put in storage and stop supplying to the current transfer point.

In summary, in the embodiments of the present invention, through the above steps 1 to 7, the current transfer point warehousing information is compared based on the warehousing-out information registered by the previous-stage transfer point in the warehousing-out information statistical table of the transfer point, so as to identify whether a fleeing behavior occurs in the current transfer point, and if the fleeing behavior occurs, the current transfer point is immediately brought into the black list of the fleeing transfer point, and a product recall and a product supply stop process are correspondingly performed. It should be noted that, the method in the embodiment of the present invention may further include, after the previous-stage circulation point sends the multiple first commodities in the specified batch to the next-stage circulation point, identifying whether the next-stage circulation point has a fleeing behavior according to the time for the next-stage circulation point to feed back the warehousing data set, and specifically includes:

When the previous-stage circulation point sends a plurality of first commodities of a specified batch to the next-stage circulation point, recording the delivery time of the previous-stage circulation point to generate corresponding first delivery time; configuring a corresponding first delivery time period for the first delivery time; tracking a second warehousing data set which is collected by a next-level transfer point and corresponds to a plurality of first commodities in a specified batch periodically from the first delivery time; and if the next-level transfer point cannot generate the second warehousing data set all the time in the first goods delivery time period, taking the next-level transfer point as a goods-fleeing transfer point and recording the goods-fleeing transfer point into a blacklist of the goods-fleeing transfer point, recalling a plurality of first goods of a specified batch sent to the next-level transfer point, and stopping continuously delivering the goods to the next-level transfer point.

Fig. 2 is a schematic structural diagram of an electronic device according to a second embodiment of the present invention. The electronic device may be a terminal device or a server for implementing the method of the embodiment of the present invention, or may be a terminal device or a server connected to the terminal device or the server for implementing the method of the embodiment of the present invention. As shown in fig. 2, the electronic device may include: a processor 301 (e.g., a CPU), a memory 302, a transceiver 303; the transceiver 303 is coupled to the processor 301, and the processor 301 controls the transceiving operation of the transceiver 303. Various instructions may be stored in memory 302 for performing various processing functions and implementing the processing steps described in the foregoing method embodiments. Preferably, the electronic device according to an embodiment of the present invention further includes: a power supply 304, a system bus 305, and a communication port 306. The system bus 305 is used to implement communication connections between the elements. The communication port 306 is used for connection communication between the electronic device and other peripherals.

The system bus 305 mentioned in fig. 2 may be a Peripheral Component Interconnect (PCI) bus, an Extended Industry Standard Architecture (EISA) bus, or the like. The system bus may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown, but this is not intended to represent only one bus or type of bus. The communication interface is used for realizing communication between the database access device and other equipment (such as a client, a read-write library and a read-only library). The Memory may include a Random Access Memory (RAM), and may further include a Non-Volatile Memory (Non-Volatile Memory), such as at least one disk Memory.

The Processor may be a general-purpose Processor, including a Central Processing Unit (CPU), a Network Processor (NP), a Graphics Processing Unit (GPU), and the like; but also Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components.

It should be noted that the embodiment of the present invention also provides a computer-readable storage medium, in which instructions are stored, and when the computer-readable storage medium runs on a computer, the computer is caused to execute the method and the processing procedure provided in the above embodiment.

The embodiment of the present invention further provides a chip for executing the instruction, where the chip is configured to execute the processing steps described in the foregoing method embodiment.

Those of skill would further appreciate that the various illustrative components and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the components and steps of the various examples have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the technical solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied in hardware, a software module executed by a processor, or a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. An anti-channel conflict processing method based on an NFC label is characterized by comprising the following steps:

collecting warehousing information of a plurality of received first commodities in the same batch at each level of streaming point to generate a corresponding first warehousing data set; loading a first NFC tag on each first commodity; the first NFC label stores a first uniform commodity name of the batch of commodities; the first binned data set comprises a first transition point name;

according to the first transfer point name, inquiring a matched superior transfer point name field from a preset transfer point grade table as a corresponding first superior transfer point name;

according to the first superior circulation point name, the first commodity name and the first circulation point name, matching data are inquired from a preset circulation point ex-warehouse information statistical table to form a corresponding first ex-warehouse data set;

when the first outbound data set is empty, setting a channel conflict judgment identifier as channel conflict;

when the first ex-warehouse data set is not empty, checking out and in-warehouse information according to the first ex-warehouse data set and the first in-warehouse data set to generate a corresponding first checking result;

If the first check result is that the total amount of the goods to be warehoused is excessive, the positions of warehouses to be warehoused are not matched or the warehousing quantity of the warehouses is excessive, the goods fleeing judgment mark is set to be the goods fleeed;

when the goods fleeing judgment mark is the goods fleeing, taking the current transfer point as a goods fleeing transfer point to be counted into a goods fleeing transfer point blacklist, recalling the warehousing goods of the current transfer point, and stopping continuously delivering the goods to the current transfer point;

the first warehousing data set comprises the first transfer point name, a first warehousing commodity name, a first warehousing total amount and a plurality of first warehousing warehouse data sets; the first warehousing warehouse data group comprises a first warehousing warehouse position and a first warehouse warehousing number; the first warehousing total amount is the sum of all the warehousing amounts of the first warehouses;

the circulation point grade table comprises a plurality of circulation point grade records; the circulation point grade record comprises a circulation point name field, a circulation point type field, a circulation point grade field and a superior circulation point name field; the flow transfer point type field comprises a manufacturer type, a supplier type and a sales merchant type; the stream transfer point grade field is empty when the corresponding stream transfer point type field is a manufacturer type;

The flow point warehouse-out information statistical table comprises a plurality of flow point warehouse-out information statistical records; the flow point warehouse-out information statistical record comprises a warehouse-out flow point name field, a warehouse-out commodity name field, a lower flow point planned warehouse-in total field and a plurality of lower flow point warehouse field groups; the lower-level stream transfer point storehouse field group comprises a planned warehousing storehouse position field and a storehouse planned warehousing quantity field; the lower-level stream transfer point planned warehousing total field is the sum of all the warehouse planned warehousing quantity fields;

the first ex-warehouse data set comprises a first planned ex-warehouse total amount and a plurality of first warehouse field groups; the first storehouse field group comprises a first planned warehousing storehouse position and a first planned warehousing quantity;

the querying, according to the first superior transit point name, the first commodity name, and the first transit point name, matching data from a preset transit point outbound information statistical table to form a corresponding first outbound data set specifically includes:

Using the lower-level stream transfer point planned warehousing total amount field of the second record as the corresponding first planned ex-warehouse total amount; taking each lower-level stream transfer point storehouse field group of the second record as the corresponding first storehouse field group; the first planned warehousing storehouse position of the first storehouse field group is the planned warehousing storehouse position field corresponding to the lower-level stream transfer point storehouse field group, and the first planned warehousing quantity of the first storehouse field group is the planned warehousing quantity field corresponding to the lower-level stream transfer point storehouse field group;

forming a corresponding first ex-warehouse data set by the obtained first planned ex-warehouse total amount and the plurality of first warehouse field groups;

the method further comprises the following steps: defining the order interface of each transfer point through the name field of the superior transfer point in the transfer point grade table: setting the stream transfer point grade record with the stream transfer point type field as a manufacturer type as record 1, and setting the superior stream transfer point name field of the record 1 as null; setting the stream transition point type field as a provider type and the stream transition point grade record with the stream transition point grade field as a grade as record 2, and setting the stream transition point grade record corresponding to the upper-grade stream transition point name field as record 3, wherein the stream transition point type field of the record 3 is a manufacturer type; if the stream transition point type field is a provider type and the stream transition point rating record whose stream transition point rating field is not one level is record 4 and the stream transition point rating record corresponding to the content of the higher-level stream transition point name field is record 5, the stream transition point type field of the record 5 should be the provider type and the stream transition point rating field of the record 5 = the stream transition point rating field-1 of record 4; setting the stream transition point type field as a type of a selling merchant, the stream transition point grade record with the stream transition point grade field as a grade as a record 6, and the stream transition point grade record corresponding to the content of the superior stream transition point name field as a record 7, wherein the stream transition point type field of the record 7 is a manufacturer type or a provider type; setting the stream transition point type field as a type of a selling merchant, and the stream transition point grade record of which the stream transition point grade field is not one grade as a record 8, and setting the stream transition point grade record corresponding to the content of the superior stream transition point name field as a record 9, the stream transition point type field of the record 9 should be a type of a selling merchant, and the stream transition point grade field of the record 9 = the stream transition point grade field-1 of the record 8.

2. The anti-channel conflict processing method based on the NFC tag according to claim 1, wherein the step of collecting warehousing information of the received multiple first commodities in the same batch at each circulation point to generate a corresponding first warehousing data set specifically includes:

when a plurality of first commodities of a current batch are put in a warehouse at a current transfer point, obtaining the name of the transfer point of the current transfer point as the corresponding name of the first transfer point; reading the first commodity name from the first NFC label of the first commodity based on NFC read-write equipment to serve as the corresponding first warehousing commodity name; counting the total amount of the first commodities in the current batch as the corresponding total amount of the first warehouse; counting the current transfer point, selecting one or more storehouses to carry out sub-warehouse entry information of batch warehousing on a plurality of first commodities of the current batch, and generating a plurality of corresponding first warehouse entry storeroom data sets; each warehouse-dividing warehousing information comprises warehouse position information and warehouse warehousing quantity information, each first warehouse-in warehouse data group corresponds to one warehouse-dividing warehousing information, the first warehouse-in warehouse position of the first warehouse-in warehouse data group is the warehouse position information corresponding to the warehouse-dividing warehousing information, and the first warehouse-in quantity of the first warehouse-in warehouse data group is the warehouse-in quantity information corresponding to the warehouse-dividing warehousing information;

3. The NFC-tag-based anti-channel conflict processing method according to claim 1, wherein the querying a matching upper-level transition point name field from a preset transition point level table as a corresponding first upper-level transition point name according to the first transition point name specifically includes:

inquiring the circulation point grade table, and recording the circulation point grade record of which the circulation point name field is matched with the first circulation point name as a first record; and extracting the superior stream point name field of the first record as the corresponding first superior stream point name.

4. The NFC-tag-based anti-channel conflict processing method according to claim 1, wherein when the first ex-warehouse data set is not empty, performing in-warehouse and out-warehouse information checking processing according to the first ex-warehouse data set and the first in-warehouse data set to generate a corresponding first checking result, specifically includes:

when the first ex-warehouse data set is not empty, carrying out numerical comparison on the first in-warehouse total amount of the first in-warehouse data set and the first planned ex-warehouse total amount of the first ex-warehouse data set;

when the first quantity is not equal to the second quantity, setting the first checking result as the position mismatch of the warehouse;

when the first quantity is equal to the second quantity, the first planned warehousing warehouse location and the first warehousing warehouse location which are the same in warehouse location information in the first ex-warehouse data set and the first warehousing data set are gathered into one type, and the same warehouse location information of the same type is extracted as the corresponding first type matching warehouse location; identifying whether the first planned warehousing storehouse position and the first planned warehousing storehouse position which cannot be clustered exist in the first ex-warehouse data set and the first warehousing data set after clustering is completed;

when the first planned warehousing warehouse location and the first planned warehousing warehouse location which cannot be clustered do not exist in the first ex-warehouse data set and the first warehousing data set, comparing the numerical value size relationship between the first warehouse warehousing quantity corresponding to each first type matching warehouse location and the first warehouse planned warehousing quantity; when the warehousing quantity of the first storeroom corresponding to any one first-class matching storeroom position is larger than the planned warehousing quantity of the first storeroom, setting the first checking result as the excess of the warehousing quantity of the storerooms; and when the warehousing quantity of the first storeroom corresponding to the positions of the first type of matched storerooms is equal to the planned warehousing quantity of the first storeroom, setting the first checking result as the warehouse-in and warehouse-out check.

5. The NFC-tag-based tamper-proofing treatment method according to claim 1, further comprising:

6. An electronic device, comprising: a memory, a processor, and a transceiver;

the processor is used for being coupled with the memory, reading and executing the instructions in the memory to realize the method steps of any one of the claims 1-5;

7. A computer-readable storage medium having stored thereon computer instructions which, when executed by a computer, cause the computer to perform the method of any of claims 1-5.