CN115953115B - Warehouse-out automatic recommendation system and method - Google Patents

Abstract

The invention discloses a warehouse-out automatic recommendation system and a method thereof, comprising the following steps: an inventory information module for providing inventory information for each product; a rule configuration module for configuring a plurality of rule groups; the inventory marking module is used for carrying out one-to-one association on the products and the rule sets, and carrying out information marking on the products of the inventory information module through the associated rule sets to obtain inventory marking information of the products; the warehouse information module is used for providing warehouse and equipment information; the ex-warehouse distribution module is used for obtaining a final ex-warehouse inventory queue according to the matching degree of each inventory corresponding to the ex-warehouse products and the ex-warehouse efficiency of each inventory position, and taking out the least inventory items meeting the ex-warehouse quantity from the final ex-warehouse inventory queue to be used as an ex-warehouse recommendation result. The recommendation system automatically gives out the optimal ex-warehouse result.

Description

Warehouse-out automatic recommendation system and method

Technical Field

The invention belongs to the field of warehouse informatization management, and particularly relates to a warehouse-out automatic recommendation system and method.

Background

The information management of the warehouse has become a development trend of the warehouse industry, but the current warehouse delivery mainly depends on manual selection of the warehouse to be delivered in a warehouse management system and is recorded in the system, and the problem that the manually selected delivery warehouse distribution mode has high error rate and low execution efficiency is needed to be solved in addition to the situation that different clients have different delivery requirements. The rapid development of warehouse enterprises needs to reduce the manual processing links as much as possible, and quality improvement and efficiency improvement are needed through deeper informatization upgrading. The information management of the warehouse is more and more common, and a foundation is laid for automatic matching of stock out of the warehouse.

The existing ex-warehouse allocation scheme generally carries out ex-warehouse inventory allocation according to fixed ex-warehouse rules, such as a first-in first-out rule of warehouse-in dates, and the system in the mode has simple operation logic and higher allocation efficiency; in addition, some optimized delivery distribution schemes can be combined with product attribute information required by customers to realize relatively accurate delivery inventory distribution.

The existing ex-warehouse allocation scheme cannot realize personalized ex-warehouse allocation rules according to the requirements of different clients, and has low flexibility; secondly, the product attribute information according to the requirements of the clients is delivered out of the warehouse, and automatic and reasonable recommendation cannot be achieved under the condition of insufficient inventory; and thirdly, only taking the ex-warehouse allocation link into consideration in the aspect of ex-warehouse efficiency, and neglecting the execution efficiency of the in-warehouse transportation link.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a warehouse-out automatic recommendation system and method.

The technical problems to be solved by the invention are realized by the following technical scheme:

an ex-warehouse automated recommendation system of a warehouse, the ex-warehouse automated recommendation system comprising an inventory information module, a rule configuration module, an inventory marking module, an ex-warehouse allocation module, and a warehouse information module, wherein:

the inventory information module is used for storing and providing inventory information of each product;

the rule configuration module is used for configuring a plurality of rule groups, and each rule group comprises a plurality of rule details;

the inventory marking module is used for carrying out one-to-one association on the products and the rule sets, and carrying out information marking on the products of the inventory information module through the associated rule sets to obtain inventory marking information of the products;

the warehouse information module is used for providing warehouse and equipment information;

the ex-warehouse distribution module is used for acquiring all inventory information of ex-warehouse products from the inventory information module according to the ex-warehouse information so as to form a first ex-warehouse inventory queue;

the ex-warehouse allocation module is further configured to obtain a matching degree of each inventory corresponding to the ex-warehouse product according to the inventory marking information of the ex-warehouse product obtained from the inventory marking module and the rule set associated with the ex-warehouse product obtained from the inventory marking module, and perform first ordering on the first ex-warehouse inventory queue according to the matching degree of each inventory to obtain a second ex-warehouse inventory queue, where the matching degree is used to measure the feasibility of ex-warehouse of each inventory;

the ex-warehouse allocation module is further configured to obtain ex-warehouse efficiency of each warehouse location according to warehouse and equipment information in the warehouse information module, reorder the inventories with the same matching degree in the second ex-warehouse inventory queue according to the ex-warehouse efficiency in order from small to large, obtain a final ex-warehouse inventory queue, and take out the minimum inventory items meeting the ex-warehouse quantity from the final ex-warehouse inventory queue as an ex-warehouse recommendation result.

Optionally, the inventory information includes an inventory unique code, a product name, an inventory quantity, and a location of the inventory.

Optionally, the rule details include a tag name, a data type, a weight, and an ordering rule, the data type including a number, a date, and a character.

Optionally, the warehouse and equipment information includes a shortest route length from each warehouse location to each warehouse exit door, a height of each warehouse location, an average moving speed of the forklift in the warehouse, an average rising speed of the forklift, and an average falling speed of the forklift.

Optionally, the obtaining a matching degree of each inventory corresponding to the outbound product according to the inventory marking information of the outbound product obtained from the inventory marking module and the rule set associated with the outbound product obtained from the inventory marking module, and performing a first sorting on the first outbound inventory queue according to the matching degree of each inventory to obtain a second outbound inventory queue, which specifically includes:

acquiring inventory marking information of the ex-warehouse products from the inventory marking module, acquiring rule groups associated with the ex-warehouse products, and acquiring all rule details of the rule groups associated with the ex-warehouse products from the rule configuration module;

determining the priority of each rule detail marking value corresponding to each inventory according to the inventory marking information of the ex-warehouse product and the rule detail of the rule group corresponding to the ex-warehouse product, wherein the higher the marking value of the same rule detail in the ordering rule is, the higher the priority is;

based on the matching degree calculation model, obtaining the matching degree of each inventory corresponding to the ex-warehouse product according to the rule details of the rule group corresponding to the ex-warehouse product and the priority of each rule detail marking value corresponding to each inventory;

and sorting the first ex-warehouse inventory queues for the first time according to the matching degree of each inventory corresponding to the ex-warehouse products, and obtaining second ex-warehouse inventory queues.

Optionally, the matching degree calculation model is:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,

for the degree of matching, n is the number of rule details in the rule set associated with the product to be delivered,/->

Weight for ith rule detail, +.>

Weight for the j-th rule detail, < ->

The priority of the ith rule detail marking value corresponding to the current stock.

Optionally, the obtaining the ex-warehouse efficiency of each warehouse location according to the warehouse and the equipment information in the warehouse information module includes:

based on a calculation model of the ex-warehouse efficiency, acquiring the ex-warehouse efficiency of each warehouse position according to the warehouse and equipment information in the warehouse information module;

the ex-warehouse efficiency calculation model is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,

for the delivery efficiency, ++>

For the height of the stock of the current stock, +.>

For the shortest route length from the stock position of the current stock to the stock exit gate +.>

For the average rising speed of the fork truck +.>

For the average descent speed of the fork truck,

is the average moving speed of the forklift in the warehouse.

Optionally, the ex-warehouse information includes ex-warehouse products, ex-warehouse quantity, and ex-warehouse doors.

The invention also provides a warehouse-out automatic recommendation method, which is implemented by using the warehouse-out automatic recommendation system according to any one of the embodiments, and comprises the following steps:

the ex-warehouse allocation module acquires ex-warehouse information;

the ex-warehouse distribution module acquires all inventory information of the ex-warehouse products from the inventory information module according to the ex-warehouse information so as to form a first ex-warehouse inventory queue;

the ex-warehouse allocation module obtains the matching degree of each inventory corresponding to the ex-warehouse product according to the inventory marking information of the ex-warehouse product obtained from the inventory marking module and the rule set associated with the ex-warehouse product obtained from the inventory marking module, and performs first ordering on the first ex-warehouse inventory queue according to the matching degree of each inventory to obtain a second ex-warehouse inventory queue, wherein the matching degree is used for measuring the feasibility of ex-warehouse of each inventory;

the ex-warehouse allocation module obtains the ex-warehouse efficiency of each warehouse position according to the warehouse and equipment information in the warehouse information module, so as to reorder the inventories with the same matching degree in the second ex-warehouse inventory queue according to the ex-warehouse efficiency in order from small to large, obtain a final ex-warehouse inventory queue, and take out the minimum inventory items meeting the ex-warehouse quantity from the final ex-warehouse inventory queue as an ex-warehouse recommendation result.

Optionally, the obtaining a matching degree of each inventory corresponding to the outbound product according to the inventory marking information of the outbound product obtained from the inventory marking module and the rule set associated with the outbound product obtained from the inventory marking module, and performing a first sorting on the first outbound inventory queue according to the matching degree of each inventory to obtain a second outbound inventory queue, which specifically includes:

acquiring inventory marking information of the ex-warehouse products from the inventory marking module, acquiring rule groups associated with the ex-warehouse products, and acquiring all rule details of the rule groups associated with the ex-warehouse products from the rule configuration module;

determining the priority of each rule detail marking value corresponding to each inventory according to the inventory marking information of the ex-warehouse product and the rule detail of the rule group corresponding to the ex-warehouse product, wherein the higher the marking value of the same rule detail in the ordering rule is, the higher the priority is;

based on the matching degree calculation model, obtaining the matching degree of each inventory corresponding to the ex-warehouse product according to the rule details of the rule group corresponding to the ex-warehouse product and the priority of each rule detail marking value corresponding to each inventory;

and sorting the first ex-warehouse inventory queues for the first time according to the matching degree of each inventory corresponding to the ex-warehouse products, and obtaining second ex-warehouse inventory queues.

The invention provides a warehouse ex-warehouse inventory recommending system capable of realizing automatic ex-warehouse, which determines the matching degree of each inventory corresponding to ex-warehouse products through preset rule configuration, thereby realizing the first sequencing of the to-be-ex-warehouse queues, and then optimizing the to-be-ex-warehouse queues of the first sequencing by utilizing the ex-warehouse efficiency of each warehouse position.

The present invention will be described in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural diagram of an automatic warehouse-out recommendation system of a warehouse according to an embodiment of the present invention;

FIG. 2 is a flowchart of a method for automated recommendation of warehouse delivery provided by an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to specific examples, but embodiments of the present invention are not limited thereto.

In order to effectively realize automatic warehouse inventory delivery in the warehouse industry, the embodiment of the invention provides a warehouse delivery automatic recommendation system. In practical application, the system can be deployed on electronic equipment such as a computer or terminal equipment, and the system is a client software module; alternatively, the system may be a client device, in which a computer program is installed, so as to implement the function of the ex-warehouse automation recommendation system provided by the embodiment of the present invention in cooperation with the computer program.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an automatic ex-warehouse recommendation system provided by an embodiment of the present invention, where the automatic ex-warehouse recommendation system includes an inventory information module, a rule configuration module, an inventory marking module, an ex-warehouse allocation module, and a warehouse information module, where:

the inventory information module is used for storing and providing inventory information of each product, in particular for recording the inventory information of each product in the warehouse, wherein each inventory information comprises an inventory unique code, a product name, an inventory number and a position, the inventory unique code is information of the inventory corresponding to different batches of products, and each inventory characterizes the number of the same batch of the same product stored in one position.

The rule configuration module is used for configuring a plurality of rule groups, each rule group comprises a plurality of rule details, and each rule detail is used for limiting one rule.

In this embodiment, the rule details include a tag name, a data type, a weight and a sorting rule, where the data type includes a number, a date and a character, the tag name includes, for example, a date of storage, a quality grade and/or a production lot number, the date of storage corresponds to a date in the data type, the date is a specific time of storage, the quality grade corresponds to the number, the number is a grade of a specific quality, the character corresponds to the production lot number, and the character is a specific production lot number; the weight is a number, the importance of the rule is marked, for example, the weight of the rule corresponding to the mark name production lot number is set to be larger than the weight of the rule corresponding to the mark name quality grade according to actual work, the weight of the rule corresponding to the mark name quality grade is larger than the weight of the rule corresponding to the mark name warehouse entry date, for example, the weight of the rule corresponding to the mark name production lot number is 5, the weight of the rule corresponding to the mark name quality grade is 3, the weight of the rule corresponding to the mark name warehouse entry date is 2, the specific weight can be set according to specific products, and the embodiment is not limited in this way; the ordering rules include a positive order and a negative order, representing the desired order of delivery. For example, the ordering rules of the numbers in the data types are in reverse order, i.e. ordering in the order of the numerical values from big to small, and for example, the ordering rules of the dates in the data types are in positive order, i.e. ordering in the order of the date values from small to big, and for example, the ordering rules of the characters in the data types are in positive order, i.e. ordering in the order of the characters from small to big.

And the inventory marking module is used for carrying out one-to-one association on the products and the rule sets, and carrying out information marking on the products of the inventory information module through the associated rule sets to obtain inventory marking information of the products.

In this embodiment, each product corresponds to a rule group, and the rule of the product is defined by the rule details of the rule group corresponding to the product, so that the rule group associated with each product is recorded in the inventory marking module, and after the product to be delivered is obtained by the delivery distribution module, the rule group associated with the delivered product can be determined by the inventory marking module, so that the corresponding rule details can be called from the rule configuration module; and the inventory marking module marks information on each product inventory by utilizing an inventory unique code (unique codes corresponding to different batches of products), a production lot number, a warehouse-in date and a quality grade, so that the inventory marking information of each product can be obtained at the inventory marking module.

And the warehouse information module is used for providing warehouse and equipment information.

In this embodiment, a plurality of bins and a plurality of outlet bin gates are disposed in each bin, each bin is used for placing different batches of different types of products, the forklift is used for transporting the products to and taking the products out of the corresponding bin, and the bin and equipment information includes the shortest path length from each bin to each outlet bin gate, the height of each bin, the average moving speed of the forklift in the bin, the average lifting speed of the forklift, and the average dropping speed of the forklift.

The ex-warehouse distribution module is used for acquiring all inventory information of the ex-warehouse products from the inventory information module according to the ex-warehouse information so as to form a first ex-warehouse inventory queue.

In this embodiment, the ex-warehouse allocation module receives ex-warehouse information, where the ex-warehouse information is related information of products that need to be ex-warehouse, and the ex-warehouse information includes, for example, ex-warehouse products, ex-warehouse quantity, and ex-warehouse doors. Because the stock information of all products stored in the current warehouse is recorded in the stock information module, after the ex-warehouse distribution module receives the ex-warehouse information, all the stock items of the ex-warehouse products can be directly obtained from the stock information module to form a first ex-warehouse stock queue, and the first ex-warehouse stock queue can be arranged according to the size of the unique stock code.

The ex-warehouse allocation module is further used for obtaining the matching degree of each inventory corresponding to the ex-warehouse product according to the inventory marking information of the ex-warehouse product obtained from the inventory marking module and the rule set associated with the ex-warehouse product obtained from the inventory marking module, and performing first ordering on the first ex-warehouse inventory queue according to the matching degree of each inventory, wherein the matching degree is used for measuring the feasibility of each inventory ex-warehouse.

In a specific embodiment, according to the inventory marking information of the outbound product obtained from the inventory marking module and the rule set associated with the outbound product obtained from the inventory marking module, a matching degree of each inventory corresponding to the outbound product is obtained, and the first outbound inventory queue is ordered according to the matching degree of each inventory, which specifically may include:

acquiring inventory marking information of the ex-warehouse product from an inventory marking module, acquiring a rule group associated with the ex-warehouse product, and acquiring all rule details of the rule group associated with the ex-warehouse product from a rule configuration module;

determining the priority of each rule detail marking value corresponding to each inventory according to the inventory marking information of the ex-warehouse product and the rule detail of the rule group corresponding to the ex-warehouse product, wherein the higher the marking value of the same rule detail in the ordering rule is, the higher the priority is, namely the higher the ordering is, the higher the priority is, and the marking value is different data corresponding to different marking names;

based on the matching degree calculation model, obtaining the matching degree of each inventory corresponding to the ex-warehouse product according to the rule details of the rule group corresponding to the ex-warehouse product and the priority of each rule detail marking value corresponding to each inventory;

and sorting the first ex-warehouse inventory queues for the first time according to the matching degree of each inventory corresponding to the ex-warehouse products from the big order to the small order to obtain second ex-warehouse inventory queues.

Specifically, after the ex-warehouse distribution module receives the ex-warehouse information, the product to be ex-warehouse is definitely required, then, the rule group associated with the ex-warehouse product can be firstly obtained from the inventory marking module through the product to be ex-warehouse, after the rule group associated with the ex-warehouse product is determined, the rule detail of the associated rule group can be obtained from the rule configuration module, and the inventory marking information corresponding to each inventory corresponding to the ex-warehouse product is called from the inventory marking module according to the rule detail.

And then, firstly, respectively carrying out de-duplication treatment on the marked values under each rule list in the first warehouse-out inventory queue, respectively sequencing the marked values according to the sequencing rule in the rule list, and marking the priority for the marked values of different rule lists corresponding to each inventory, wherein the priority of the first position in the marked values of the same rule list is highest and marked as 1, and the priority of the marked values arranged at the back is 80% of the priority of the previous position, thereby completing the calculation of the priorities of all inventory marked values.

And then calculating the matching degree of each stock by using a matching degree calculation model, so that the matching degree of all the stocks can be used for sequencing the first ex-warehouse stock queues, the first ex-warehouse stock queues after the sequencing are the second ex-warehouse stock queues, and the matching degree calculation model is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,

for the degree of matching, n is the number of rule details in the rule set associated with the product to be delivered,/->

Weight for ith rule detail, +.>

Weight for the j-th rule detail, < ->

The priority of the ith rule detail marking value corresponding to the current stock.

The ex-warehouse allocation module is further configured to obtain the ex-warehouse efficiency of each warehouse location according to the warehouse and the equipment information in the warehouse information module, so that the inventories with the same matching degree in the second ex-warehouse inventory queue are reordered according to the ex-warehouse efficiency in order from small to large, a final ex-warehouse inventory queue is obtained, and the least inventory items meeting the number of ex-warehouse requirements are taken out from the final ex-warehouse inventory queue as an ex-warehouse recommendation result.

Specifically, based on a calculation model of the ex-warehouse efficiency, the ex-warehouse efficiency of each warehouse location is obtained according to warehouse and equipment information in a warehouse information module, and the calculation model of the ex-warehouse efficiency is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,

for the delivery efficiency, ++>

For the height of the stock of the current stock, +.>

For the shortest route length from the stock position of the current stock to the stock exit gate +.>

For the average rising speed of the fork truck +.>

For the average lowering speed of the fork truck, +.>

Is the average moving speed of the forklift in the warehouse.

The invention provides a warehouse ex-warehouse inventory recommending system capable of realizing automatic ex-warehouse, which determines the matching degree of each inventory corresponding to ex-warehouse products through preset rule configuration, thereby realizing the first sequencing of the to-be-ex-warehouse queues, and then optimizing the to-be-ex-warehouse queues of the first sequencing by utilizing the ex-warehouse efficiency of each warehouse position.

Example two

Based on the same inventive concept, the embodiment of the invention also provides a warehouse-out automatic recommendation method, as shown in fig. 2, comprising the following steps:

s10: the ex-warehouse allocation module acquires ex-warehouse information;

s20: the ex-warehouse distribution module acquires all inventory information of the ex-warehouse products from the inventory information module according to the ex-warehouse information so as to form a first ex-warehouse inventory queue;

s30: the ex-warehouse allocation module obtains the matching degree of each inventory corresponding to the ex-warehouse product according to the inventory marking information of the ex-warehouse product obtained from the inventory marking module and the rule set associated with the ex-warehouse product obtained from the inventory marking module, and sorts the first ex-warehouse inventory queue for the first time according to the matching degree of each inventory to obtain a second ex-warehouse inventory queue, wherein the matching degree is used for measuring the feasibility of each inventory ex-warehouse;

s40: the ex-warehouse distribution module obtains the ex-warehouse efficiency of each warehouse position according to the warehouse and equipment information in the warehouse information module, so as to reorder the warehouses with the same matching degree in the second ex-warehouse inventory queue according to the ex-warehouse efficiency in order from small to large, obtain a final ex-warehouse inventory queue, and take out the minimum inventory items meeting the ex-warehouse quantity from the final ex-warehouse inventory queue as an ex-warehouse recommendation result.

In a specific embodiment, step S30 may specifically include:

s301: acquiring inventory marking information of the ex-warehouse product from an inventory marking module, acquiring a rule group associated with the ex-warehouse product, and acquiring all rule details of the rule group associated with the ex-warehouse product from a rule configuration module;

s302: determining the priority of each rule detail marking value corresponding to each inventory according to the inventory marking information of the ex-warehouse product and the rule detail of the rule group corresponding to the ex-warehouse product;

s303: based on the matching degree calculation model, obtaining the matching degree of each inventory corresponding to the ex-warehouse product according to the rule details of the rule group corresponding to the ex-warehouse product and the priority of each rule detail marking value corresponding to each inventory;

s304: and sorting the first ex-warehouse inventory queues for the first time according to the matching degree of each inventory corresponding to the ex-warehouse products from the big order to the small order to obtain second ex-warehouse inventory queues.

The effect of the present invention can be further explained by the following simulation experiment.

1. The ex-warehouse allocation module receives ex-warehouse information, and the ex-warehouse information is shown in table 1.

TABLE 1 Exit information

2. The ex-warehouse allocation module obtains inventory information of all the products from the inventory information module, and the inventory information is shown in table 2.

Table 2 inventory information

3. The rule set 001 is obtained by the ex-warehouse allocation module from the inventory marking module and associated with the ham sausage product, and the rule details of the rule set 001 are obtained by the rule configuration module as shown in table 3.

TABLE 3 rule details for rule set 001

4. The ex-warehouse allocation module obtains the stock marking information of the ham sausage products from the stock marking module as shown in table 4.

TABLE 4 inventory marking information

5. The minimum length of the routes to each of the outbound doors obtained by the outbound distribution module from the warehouse information module is shown in table 5.

Table 5 height and length information

6. The equipment information obtained by the ex-warehouse allocation module from the warehouse information module is shown in table 6.

Table 6 device information

7. The priority results of the calculation of each tag value by the ex-warehouse allocation module according to the configuration information in step 2 and the inventory tag information in step 3 are shown in table 7.

TABLE 7 priority results

8. And calculating the matching degree of each stock by using a matching degree calculation model according to the configuration information in the step 2 and the priority information in the step 7, wherein the calculation result is shown in table 8.

Table 8 match degree of each stock

The first sorting of the stock is performed according to the matching degree, and the optimized ex-warehouse sequence after sorting by the ex-warehouse allocation module is shown in table 9.

Table 9 optimized order of delivery

9. According to the steps 4 and 5, the delivery efficiency from the stock position of each ham sausage product to the delivery door 2 is calculated by using a delivery efficiency calculation model, and the delivery efficiency is shown in table 10.

TABLE 10 ex-warehouse efficiency

And sorting the sub-queues with the same matching degree in the queues for the second time according to the delivery efficiency, wherein the optimal delivery sequence after the delivery distribution module sorts the sub-queues is shown in a table 11.

Table 11 optimal ex-warehouse sequence

10. Based on the number of outgoing libraries, the outgoing library allocation module eventually recommends an outgoing library stock as shown in Table 12.

Table 12 final recommended ex-warehouse inventory results

Example III

The embodiment of the present invention further provides an electronic device, as shown in fig. 3, including a processor 301, a communication interface 302, a memory 303, and a communication bus 304, where the processor 301, the communication interface 302, and the memory 303 perform communication with each other through the communication bus 304,

a memory 303 for storing a computer program;

the processor 301 is configured to implement the method steps described in any of the warehouse-out automatic recommendation methods described above when executing the program stored in the memory 303.

The communication bus mentioned above for the electronic devices may be a peripheral component interconnect standard (PeripheralComponent Interconnect, PCI) bus or an extended industry standard architecture (ExtendedIndustry Standard Architecture, EISA) bus, etc. The communication bus may be classified as an address bus, a data bus, a control bus, or the like. For ease of representation, the figures are only represented with a thick line, but do not represent only one bus or one type of bus.

The communication interface is used for communication between the electronic device and other devices.

The memory may include random access memory (RandomAccess Memory, RAM) or may include Non-volatile memory (Non-VolatileMemory, NVM), such as at least one disk memory. Optionally, the memory may also be at least one memory device located remotely from the aforementioned processor.

The processor may be a general-purpose processor, including a central processing unit (CentralProcessing Unit, CPU), a network processor (NetworkProcessor, NP), etc.; but also digital signal processors (DigitalSignal Processing, DSP), application specific integrated circuits (ApplicationSpecific Integrated Circuit, ASIC), field programmable gate arrays (Field-ProgrammableGate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components.

The invention also provides a computer readable storage medium. The computer readable storage medium stores a computer program which, when executed by a processor, implements the method steps of the delivery automation recommendation system and method for any warehouse.

Alternatively, the computer readable storage medium may be a Non-Volatile Memory (NVM), such as at least one disk Memory.

Optionally, the computer readable memory may also be at least one memory device located remotely from the aforementioned processor.

In yet another embodiment of the present invention, there is also provided a computer program product containing instructions that, when run on a computer, cause the computer to perform the method steps of the automated warehouse-out recommendation system and method of any of the warehouses described above.

It should be noted that, for the method/electronic device/storage medium/computer program product embodiments, the description is relatively simple as it is substantially similar to the system embodiments, and the relevant points are referred to in the section description of the system embodiments.

It should be noted that the terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying a number of technical features being indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more features. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Further, one skilled in the art can engage and combine the different embodiments or examples described in this specification.

Although the invention is described herein in connection with various embodiments, other variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed invention, from a study of the drawings and the disclosure. In the description, the word "comprising" does not exclude other elements or steps, and the "a" or "an" does not exclude a plurality. Some measures are described in mutually different embodiments, but this does not mean that these measures cannot be combined to produce a good effect.

The foregoing is a further detailed description of the invention in connection with the preferred embodiments, and it is not intended that the invention be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims (9)

1. The automatic ex-warehouse recommendation system is characterized by comprising an inventory information module, a rule configuration module, an inventory marking module, an ex-warehouse distribution module and a warehouse information module, wherein:

the inventory information module is used for storing and providing inventory information of each product;

the rule configuration module is used for configuring a plurality of rule groups, and each rule group comprises a plurality of rule details;

the inventory marking module is used for carrying out one-to-one association on the products and the rule sets, and carrying out information marking on the products of the inventory information module through the associated rule sets to obtain inventory marking information of the products;

the warehouse information module is used for providing warehouse and equipment information;

the ex-warehouse distribution module is used for acquiring all inventory information of ex-warehouse products from the inventory information module according to the ex-warehouse information so as to form a first ex-warehouse inventory queue;

the ex-warehouse allocation module is further configured to obtain a matching degree of each inventory corresponding to the ex-warehouse product according to the inventory marking information of the ex-warehouse product obtained from the inventory marking module and the rule set associated with the ex-warehouse product obtained from the inventory marking module, and perform first ordering on the first ex-warehouse inventory queue according to the matching degree of each inventory to obtain a second ex-warehouse inventory queue, where the matching degree is used to measure the feasibility of ex-warehouse of each inventory;

the matching degree calculation model of the matching degree is as follows:

wherein M is the matching degree, n is the number of rule details in the rule group associated with the product to be delivered, and w _i Weight of ith rule detail, w _j Weight p for the j-th rule detail _i Priority of the ith rule detail marking value corresponding to the current stock;

the ex-warehouse allocation module is further configured to obtain ex-warehouse efficiency of each warehouse location according to warehouse and equipment information in the warehouse information module, reorder the inventories with the same matching degree in the second ex-warehouse inventory queue according to the ex-warehouse efficiency in order from small to large, obtain a final ex-warehouse inventory queue, and take out the minimum inventory items meeting the ex-warehouse quantity from the final ex-warehouse inventory queue as an ex-warehouse recommendation result.

2. The ex-warehouse automated recommendation system according to claim 1, wherein the inventory information comprises an inventory unique code, a product name, an inventory quantity, and a location of the inventory.

3. The automated ex-warehouse recommendation system according to claim 1, wherein the rule details comprise a tag name, a data type, a weight, and an ordering rule, the data type comprising a number, a date, and a character.

4. The ex-warehouse automated recommendation system of claim 1, wherein the warehouse and equipment information comprises a shortest route length from each warehouse location to each ex-warehouse door, a height of each warehouse location, an average moving speed of a forklift within the warehouse, an average rising speed of a forklift, an average falling speed of a forklift.

5. The automated delivery recommendation system according to claim 1, wherein the obtaining a matching degree of each inventory corresponding to the delivery product according to the inventory marking information of the delivery product obtained from the inventory marking module and the rule set associated with the delivery product obtained from the inventory marking module, and the first ordering the first delivery inventory queue according to the matching degree of each inventory to obtain a second delivery inventory queue, specifically comprises:

acquiring inventory marking information of the ex-warehouse products from the inventory marking module, acquiring rule groups associated with the ex-warehouse products, and acquiring all rule details of the rule groups associated with the ex-warehouse products from the rule configuration module;

determining the priority of each rule detail marking value corresponding to each inventory according to the inventory marking information of the ex-warehouse product and the rule detail of the rule group corresponding to the ex-warehouse product, wherein the higher the marking value of the same rule detail in the ordering rule is, the higher the priority is;

based on the matching degree calculation model, obtaining the matching degree of each inventory corresponding to the ex-warehouse product according to the rule details of the rule group corresponding to the ex-warehouse product and the priority of each rule detail marking value corresponding to each inventory;

and sorting the first ex-warehouse inventory queues for the first time according to the matching degree of each inventory corresponding to the ex-warehouse products, and obtaining second ex-warehouse inventory queues.

6. The automated delivery recommendation system of claim 1, wherein the obtaining the delivery efficiency of each bin according to the warehouse and equipment information in the warehouse information module comprises:

based on a calculation model of the ex-warehouse efficiency, acquiring the ex-warehouse efficiency of each warehouse position according to the warehouse and equipment information in the warehouse information module;

the ex-warehouse efficiency calculation model is as follows:

wherein E is the ex-warehouse efficiency, h is the height of the warehouse location of the current inventory, d is the shortest path length from the warehouse location of the current inventory to the ex-warehouse door, v _up For the average rising speed of the fork truck, v _down V is the average moving speed of the forklift in the warehouse.

7. The automated delivery recommendation system of claim 1, wherein the delivery information comprises delivery product, delivery quantity, delivery gate.

8. A method for automatically recommending delivery of a warehouse, characterized in that the method for automatically recommending delivery of a warehouse is implemented by using the system for automatically recommending delivery of a warehouse according to any one of claims 1 to 7, and comprises:

the ex-warehouse allocation module acquires ex-warehouse information;

the ex-warehouse distribution module acquires all inventory information of the ex-warehouse products from the inventory information module according to the ex-warehouse information so as to form a first ex-warehouse inventory queue;

the ex-warehouse allocation module obtains the matching degree of each inventory corresponding to the ex-warehouse product according to the inventory marking information of the ex-warehouse product obtained from the inventory marking module and the rule set associated with the ex-warehouse product obtained from the inventory marking module, and performs first ordering on the first ex-warehouse inventory queue according to the matching degree of each inventory to obtain a second ex-warehouse inventory queue, wherein the matching degree is used for measuring the feasibility of ex-warehouse of each inventory;

the matching degree calculation model of the matching degree is as follows:

wherein M is the matching degree, n is the number of rule details in the rule group associated with the product to be delivered, and w _i Weight of ith rule detail, w _j Weight p for the j-th rule detail _i Priority of the ith rule detail marking value corresponding to the current stock;

the ex-warehouse allocation module obtains the ex-warehouse efficiency of each warehouse position according to the warehouse and equipment information in the warehouse information module, so as to reorder the inventories with the same matching degree in the second ex-warehouse inventory queue according to the ex-warehouse efficiency in order from small to large, obtain a final ex-warehouse inventory queue, and take out the minimum inventory items meeting the ex-warehouse quantity from the final ex-warehouse inventory queue as an ex-warehouse recommendation result.

9. The automated ex-warehouse recommendation method according to claim 8, wherein the obtaining a matching degree of each inventory corresponding to the ex-warehouse product according to the inventory marking information of the ex-warehouse product obtained from the inventory marking module and the rule set associated with the ex-warehouse product obtained from the inventory marking module, and the first ordering the first ex-warehouse inventory queue according to the matching degree of each inventory, to obtain a second ex-warehouse inventory queue, specifically comprises:

acquiring inventory marking information of the ex-warehouse products from the inventory marking module, acquiring rule groups associated with the ex-warehouse products, and acquiring all rule details of the rule groups associated with the ex-warehouse products from the rule configuration module;

determining the priority of each rule detail marking value corresponding to each inventory according to the inventory marking information of the ex-warehouse product and the rule detail of the rule group corresponding to the ex-warehouse product, wherein the higher the marking value of the same rule detail in the ordering rule is, the higher the priority is;

based on the matching degree calculation model, obtaining the matching degree of each inventory corresponding to the ex-warehouse product according to the rule details of the rule group corresponding to the ex-warehouse product and the priority of each rule detail marking value corresponding to each inventory;

and sorting the first ex-warehouse inventory queues for the first time according to the matching degree of each inventory corresponding to the ex-warehouse products, and obtaining second ex-warehouse inventory queues.

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