CN111563811A - Pledge inventory method, system, and computer-readable storage medium - Google Patents

Abstract

The application provides a pledge inventory method, system, and computer-readable storage medium. The pledge inventory method comprises the steps of determining pledges to be inventoried in an inventory task period; generating one or more inventory lists at preset time points or random time points in an inventory task period based on the pledgets to be inventoried, wherein each inventory list comprises at least part of information of the pledgets to be inventoried; and receiving and recording an actual checking result generated by actually checking the corresponding pledge to be checked based on the checking list. The reliability is higher.

Description

Pledge inventory method, system, and computer-readable storage medium

Technical Field

The invention relates to the field of finance, in particular to a pledge inventory method, a pledge inventory system and a computer-readable storage medium.

Background

In the supply chain finance oriented escort business or the traditional escort business, the quality-assured objects stored in the appointed warehouse of the warehouse operator by the financing party are often checked to achieve the purpose of monitoring the quality-assured objects of the financing party, so that the consistency of the credit and the credit is ensured, and the fraudulent behavior of cheating and loan is prevented.

In some scenes of checking the pledgets, a checking list including a certain amount of pledgets to be checked is usually generated at regular time, then inventory data of the pledgets to be checked is exported from a system of a warehouse operator by a checking worker and is printed into a paper checking list, and the pledgets are checked according to the paper checking list. When such an inventory method is used, it is easy to estimate the generation time of the subsequent inventory list and the details of the pledge to be inventory included in the subsequent inventory list from the historical inventory list, so that the inventory counterfeiting behavior is easy to occur, and the reliability of the inventory data in the system of the warehouse operator is not high.

Disclosure of Invention

The application provides a quality-preservation checking method.

The application provides a pledge inventory method, which comprises the following steps:

determining the pledge to be inventoried in the inventory task period;

generating one or more inventory lists at preset time points or random time points in the inventory task period based on the pledgets to be inventoried, wherein each inventory list comprises at least part of information of the pledgets to be inventoried;

and receiving and recording an actual checking result generated by actually checking the corresponding to-be-checked pledge based on the checking list.

The application provides a pledge thing system of checing, pledge thing system of checing includes:

the system comprises a to-be-checked pledge management module, a to-be-checked pledge management module and a to-be-checked pledge management module, wherein the to-be-checked pledge management module is used for determining to-be-checked pledges in a checking task period;

the inventory list generating module is used for generating one or more inventory lists at a preset time point or a random time point in the inventory task period based on the to-be-inventoried pledge, and each inventory list comprises at least part of information of the to-be-inventoried pledge;

and the inventory result management module is used for receiving and recording an actual inventory result generated by actually inventorying the corresponding pledge to be inventoryed based on the inventory list.

The application provides a pledge inventory system, and the pledge inventory method comprises one or more processors for implementing the method of any one of the above.

The present application provides a computer readable storage medium having stored thereon a program which, when executed by a processor, implements a method as described in any one of the above.

In some embodiments, the pledge inventory system generates inventory lists at dynamically changeable preset time points or random time points, and the time point generated by each inventory list is unpredictable, so that the inventory behavior can be effectively deterred and prevented from being false, and the credibility of inventory data in the inventory process is increased.

Drawings

FIG. 1 is a flow chart of a pledget inventory method according to one embodiment of the present application;

FIG. 2 is a flow chart of a method for determining a random point in time provided by one embodiment of the present application;

FIG. 3 is a block diagram of a pledget inventory system provided in one embodiment of the present application;

fig. 4 is a block diagram of a pledget inventory system according to an embodiment of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with one or more embodiments of the present specification. Rather, they are merely examples of apparatus and methods consistent with certain aspects of one or more embodiments of the specification, as detailed in the claims which follow.

It should be noted that: in other embodiments, the steps of the corresponding methods are not necessarily performed in the order shown and described herein. In some other embodiments, the method may include more or fewer steps than those described herein. Moreover, a single step described in this specification may be broken down into multiple steps for description in other embodiments; multiple steps described in this specification may be combined into a single step in other embodiments.

The pledgets of the present application may be owned goods that a financier (e.g., a business or an individual) mortgage to a financial institution (e.g., a bank). The financial side provides corresponding borrowing for the financing side based on the goods value of the pledge of the financing side. The pledget may be stored in a designated repository of the repository operator. The inventory data may include data on the inventory location, quantity, class, value, ex-warehouse, in-warehouse, etc. of the pledgets stored in the warehouse operator's system (e.g., WMS system). The pledge can be supervised by a supervisor approved by a financial institution so as to prevent the pledge from having inconsistent accounts and realities due to operations such as replacement, ex-warehouse and the like in the pledge process.

Fig. 1 is a flowchart of a pledget inventory method according to an embodiment of the present disclosure. The pledge inventory method in fig. 1 can be applied to a pledge inventory system that supports inventory management of pledges stored by financers in designated warehouses. The designated warehouse may be a part or all of warehouses of one warehouse operator, or may be a part or all of warehouses of multiple warehouse operators.

The pledge inventory system may be a third party system interfacing with the warehouse operator's system, a warehouse operator's system, or a supervisor's system. Referring to fig. 1, the pledge inventory method of the present application includes:

and step S10, determining the pledge to be inventoried in the inventory task period. In some embodiments, the inventory task period may be a period of time required to perform one or more inventories of at least a portion of the pledgets within the inventory task period. The pledge to be inventoried in the inventory task period can be obtained by scanning and screening the pledge data in the system of the warehouse operator based on a preset screening rule. The screening rules may be arranged to classify the data of the pledgets in the warehouse operator's system based on one or more preset attribute conditions. The preset attribute conditions comprise a pledge to which the pledge belongs, and/or a warehouse to which the pledge belongs, and/or a category to which the pledge belongs. The pledgets to be inventoried in each inventory task cycle may be pledgets of a certain type, which are scanned and screened from the system of the warehouse operator and have the same attribute conditions, such as pledgets belonging to the same financing party. In some whole-warehouse pledge scenes, because pledges in the whole warehouse belong to the same pledge, the attribute conditions may include only the party who the pledge belongs to, the warehouse which the pledge belongs to, and the category to which the pledge belongs. It should be noted that the preset attribute condition may be determined according to an actual situation, and the preset attribute condition is not limited in the present application.

In some embodiments, the pledgets to be inventoried within an inventory task period are one or more pledgets in the SKU (stock keeping Unit) dimension.

In some embodiments, the pledge inventory system stores the pledge data synchronized from the system of the warehouse operator, and the pledge to be inventoried in the inventory task period may also be obtained by scanning the pledge data stored in the pledge inventory system based on a preset scanning rule.

In some embodiments, because the pledgets in a given warehouse are replaced, ex-warehoused, etc., so that the data of the pledge in the system of the warehouse operator or the data of the pledge in the pledge inventory system is in the process of dynamic change, therefore, the data for the pledgets in the warehouse operator system or the data in the pledget management system may be scanned multiple times, so as to determine the pledgets to be inventoried in the inventory task period for multiple times, for example, the pledgets in the warehouse operator system or the pledgets in the inventory management system can be scanned regularly every day to determine whether the pledgets to be inventoried in the inventory task period are accurate, and if the verification result is not accurate, updating the pledgets to be inventoried in the corresponding inventory task period according to the latest pledget data in the warehouse operator system or the pledget data in the pledget inventory system.

In some embodiments, when it is determined that the data of the added pledge is added to the system of the warehouse operator or the pledge checking system after scanning, based on the data of the added pledge, it is determined that the added pledge and the pledge to be checked in the existing inventory task period are not the same type of pledge, and the added pledge is checked in the new inventory task period.

In some embodiments, the inventory task cycle may have a predetermined start time and end time. The starting time of the checking task period can be predetermined, and the ending time of the checking task period can be obtained according to the actual checking duration. An inventory task period may be a particular day, or may be a series of days, weeks, or months.

Step S11, generating one or more inventory lists at a preset time point or a random time point within the inventory task period based on the pledge to be inventoried, where each inventory list includes at least part of information of the pledge to be inventoried.

In some embodiments, the preset time point may be dynamically adjusted, and thus, the generation time point of the inventory list may be dynamically adjusted.

In some embodiments, the random time points are generated by a random number function. Due to the randomness of the random function, the time point of each inventory generation is a random time point.

Based on the above description, the inventory list generated based on the preset time point or the random time point has no regular and repeatable generation time point, so that the generation time point of the inventory list is difficult to be inferred, and the behavior of inventory counterfeiting can be effectively prevented.

In some embodiments, if the number of the pledgets to be inventoried in the inventory task period is large, or when the pledgets to be inventoried need to be inventoried multiple times, the inventory task period may last for days or weeks or months, in this case, the inventory list that the inventory worker needs to inventorie on the same day may be generated at random time points and/or preset time points of the inventory working day by taking the inventory working day as a unit. The inventory work day includes an inventory start time point and an inventory end time point that may be preset. And automatically starting to count the pledgets to be counted in the counting task period at the counting starting time point of the counting working day. Here, the automatically starting the inventory of the pledgets to be inventoried in the inventory task cycle includes starting to generate the inventory of the current day at a preset time point or a random time point determined based on the inventory starting time point. And automatically finishing the checking of the pledgets to be checked in the checking task period at the checking finishing time point of the checking working day. The method comprises the steps that the inventory of the pledgets to be inventoried in each inventory task period is automatically finished, and the inventory finishing time point automatically finishes the generation of the inventory list on the current day; or automatically terminate inventory already performed on the current day for a pledget on some generated inventory list.

In some embodiments, when the inventory task period includes a plurality of random time points and/or preset time points for generating the inventory list, after the inventory operation at the current time point is completed, a time point for generating the next inventory list is determined. In this way, when the inventory operation at the current time point is not completed, the next inventory list is generated, so that inventory counterfeiting can be performed based on the next inventory list before the pledge on the next inventory list is inventory. In some inventory modes, duplication removal operation is performed on the pledgets to be inventoried in different inventory lists in an inventory task period, namely, each inventory list comprises different pledgets to be inventoried; in other checking modes, the pledges to be checked in different checking lists in the checking task period can be partially or completely the same.

In some embodiments, the information included in each inventory list for at least a portion of the pledgets may be inventory data for the at least a portion of the pledgets. The inventory data of at least part of the pledgets to be checked can be obtained from the system of the warehouse operator, including the data of the storage position, weight, size, class and the like of the pledgets. Due to the fact that real-time performance of data in the system of the warehouse operator is high, the inventory list is generated based on inventory data in the system of the warehouse operator, and the inventory list is accurate.

In some embodiments, where the pledge inventory system is a third party system interfacing with the warehouse operator's system, the pledge inventory system may also time inventory data synchronized from the warehouse operator's system. Based on this, inventory data for at least a portion of the pledgets may be obtained from a pledget inventory system. Thus, interaction between different systems is reduced.

In some embodiments, to improve the authenticity of the inventory, the inventory data for the pledgets on the inventory list does not include the corresponding number of pledgets to be inventoried. Therefore, the checking staff can not be influenced by the number of the pledgets to be checked in the warehouse operator system, and the actual number of the pledgets to be checked in the warehouse on the checking list can be fed back really.

And step S12, receiving and recording an actual inventory result generated by actually inventorying the corresponding pledget to be inventoryed based on the inventory list. In some embodiments, in the process of checking the pledge to be checked in the checking list, the checking staff can adopt means such as video checking and intelligent checking to ensure the authenticity of the data collected in the actual checking process. The actual inventory result may include the number, type, quality, damage level of the inventory of the pledgets in the warehouse, and the pictures, video information, etc. of the pledgets in the warehouse.

In some embodiments, the pledgets in the warehouse may be inventoried by an inventory clerk of the supervisor. The supervisor supervises the pledge for the financial institution instead, and the possibility of false checking in the checking process is low.

The method for checking the pledge is used for checking the pledge to be checked based on the checking list generated at the preset time point or the random time point which can be dynamically adjusted in the checking task period, and because the generation time point of each checking list cannot be presumed, the behavior of effectively deterring and preventing the stock from being false can be realized, the credibility of stock data in the checking process is increased, and the probability of pledge loan is reduced.

Fig. 2 is a flowchart of a method for determining a random time point according to an embodiment of the present application. Referring to fig. 2, a method of determining a random point in time includes:

step S20, a completion time point of the current actual inventory is acquired. The current actual checking completion time point may be a time point after the checking worker completes the actual checking of the pledge to be checked on the current checking list.

In step S21, an interval duration is randomly generated. The interval duration here may be an interval duration between the completion time point of the current actual inventory and the next time point. The interval duration can be determined through a random number function, and based on the randomness of the random number function, the interval duration is the random duration, so that after the current pledge inventory operation is completed, the generation of the next random time point has no regularity and can be referred to.

In step S22, a next random time point is determined based on the completion time point and the interval duration of the current actual inventory. In some embodiments, the interval duration is added to the completion time point of the current actual inventory, and the next random time point is calculated.

In some embodiments, when the inventory task period includes a plurality of random time points, a first random time point in the inventory task period may be preset; or taking the starting time of each inventory task period as a random time point for generating a first inventory list; or based on the starting time of the checking task period, generating a random interval duration between the starting time of the checking task period and the random interval duration through a random number function, and adding the random interval duration on the basis of the starting time of the checking task period to obtain a first random time point in the checking task period; or when the inventory task period lasts for several days, a reference time point can be preset on each day of the inventory task period, the reference time point is used as a random time point for generating a first inventory list on each day, or based on the reference time point, a random interval duration with the reference time point is generated through a random number function, and the random interval duration is added on the basis of the reference time point to obtain the random time point for generating the first inventory list on each day.

According to the method and the device, the next random time point is determined according to the completion time point of the current actual inventory and the randomly determined interval duration, and the next inventory list can be prevented from being generated when a certain pledge inventory operation is not completed, so that the possibility of counterfeit inventory data is increased.

In some embodiments, the interval duration is randomly determined between a minimum interval duration and a maximum interval duration. The minimum interval duration represents the minimum time interval allowed from the completion time point of the current actual inventory to the next random time point; the maximum interval duration represents the maximum time interval allowed between the completion time point of the current actual inventory and the next random time point. And the minimum interval duration and the maximum interval duration are preset interval durations, and the range of the randomly generated interval durations is limited to prevent the randomly generated interval durations from being too long or too short. The units of the minimum interval duration and the maximum interval duration may be different, for example, the unit of the minimum interval duration may be "hour", and the unit of the maximum interval duration may be "day"; the units of the minimum interval duration and the maximum interval duration may also be the same, for example, the units of the small interval duration and the units of the maximum interval duration are both "days". In some embodiments, the minimum interval duration may be set to 2 days, the maximum interval duration may be set to 10 days, and the generated random interval duration is a random number of days between 2 days and 10 days, for example, 4 days, so that after the previous pledge inventory operation is completed, the completion time point of the previous pledge inventory operation is a reference time point, and a new inventory is generated at a next random time point after 4 days. The randomly generated interval duration is limited between the minimum interval duration and the maximum interval duration, so that the problem that the counting process is unreasonable due to the fact that the interval duration between two adjacent random time points is too long or too short in the counting task period can be solved.

In some embodiments, each inventory list includes information for at least a portion of the pledgets to be inventoried, including:

the unit price of the pledgets to be inventorized in the inventory task period is sorted from high to low, and the information of the first N pledgets to be inventorized; and/or

The information of the top M pledgets to be checked in the sequence from high to low of the value of pledgets to be checked in the task cycle of checking; and/or

The information of the first K pledgets to be checked in the sorting of the inventory goods value of pledgets to be checked from high to low in the inventory task period; and/or

And H pieces of information of the pledgets to be inventoried which are not inventoried in the inventory task period.

Wherein N, M, K and H are positive integers.

Here, the unit price may be the price of each pledge to be inventoried in the SKU dimension stored in the system of the warehouse operator when the inventory is created; when the goods value can be created for the inventory list, the inventory quantity of the pledgets to be inventoried in the SKU dimension stored in the system of the warehouse operator is multiplied by the price of the corresponding pledgets to be inventoried, and the calculated value is obtained; the warehousing goods-out value can be a numerical value obtained by calculating the difference value of the stock quantity of the to-be-inventoried pledgets in the SKU dimension stored in the system of the warehouse operator when the current inventory list is created compared with the value obtained by multiplying the price of the corresponding to-be-inventoried pledgets when the inventory list is created last time. In some embodiments, when the pledge inventory system is a third party system interfacing with the warehouse operator's system, the pledge inventory system may periodically synchronize locally from the warehouse operator's system the price, inventory quantity, etc. of each pledge to be inventoried in the SKU dimension. The unit price, the goods value and the in-out goods value can also be obtained according to the data of the pledge stored in the pledge inventory system.

In some embodiments, the pledgets to be inventoried in the inventory task period are sequenced, and the pledgets with higher unit price, goods value or warehouse-in and warehouse-out goods value are selected for inventory, and the inventory mode can be defined as transaction inventory, and the inventory mode can effectively track the more active pledgets and prevent the inventory of the pledgets from being counterfeited. And in the checking task period, checking the non-checked mass deposits in sequence according to the randomly determined number, wherein the checking mode can be defined as circular checking, and the full-coverage checking can be carried out on the mass deposits to be checked in the checking task period to prevent the stock from being faked.

In some embodiments, the value N, M, K or H is a preset positive integer that can be dynamically adjusted, and at least any two of the preset values N, M, K and H may be the same.

In some embodiments, the value N, M, K or H is a random positive integer. N, M, K or H may be generated by a random number function.

Because the number of the pledgets to be checked in each checking list is a random positive integer or a dynamically modifiable positive integer, the pledgets to be checked in the next checking list cannot be predicted, and the stock is effectively prevented from being falsely checked.

In some embodiments, the value N, M, K defaults to a preset positive integer and the value H defaults to a random positive integer.

In some embodiments, when the value N is a random positive integer, the value of N is randomly determined between a first minimum value and a first maximum value; and/or

Randomly determining a value of M between a second minimum value and a second maximum value; and/or

Randomly determining a value of K between a third minimum value and a third maximum value; and/or

The value of H is randomly determined between a fourth minimum value and a fourth maximum value.

In some embodiments, the first minimum value represents a time point created in the inventory list, and after the unit prices of the pledgets to be inventorized in the inventory task period are sorted from high to low, starting from the pledget to be inventorized with the highest unit price, the number of pledgets for inventory that need to be generated in the inventory list is the least; the first maximum value represents a time point created in the inventory list, and after the unit prices of the pledgets to be inventorized in the inventory task period are sorted from high to low, the number of pledgets for inventory which are generated in the inventory list at most is counted from the pledget with the highest unit price.

In some embodiments, the second minimum value represents a time point of creation of the inventory list, and after sorting the cargo values of the pledgets to be inventoried in the inventory task period from high to low, starting from the pledget to be inventoried with the highest cargo value, the minimum number of pledgets for inventory that need to be generated in the inventory list is counted; the second maximum value represents the time point of creation of the inventory list, and after the cargo values of the pledgets to be inventorized in the inventory task period are sorted from high to low, the number of pledgets for inventory which are generated in the inventory list at most is required from the pledget with the highest cargo value to be inventorized.

In some embodiments, the third minimum value represents a time point created in the inventory list, and after sorting the inventory entry and exit values of the to-be-inventoried pledgets in the inventory task period from high to low, starting from the to-be-inventoried pledget with the highest inventory entry and exit value, the minimum number of pledgets for inventory that need to be generated in the inventory list is calculated; and the third maximum value represents the time point created in the inventory list, and after the inventory goods in-out values of the to-be-inventoried pledgets in the inventory task period are sorted from high to low, the number of pledgets for inventory which are generated in the inventory list at most is required from the to-be-inventoried pledget with the highest inventory goods in-out value.

In some embodiments, the fourth minimum characterizes a number of pledgets that need to be generated at least in the inventory list that have not been inventoried during the inventory task period; the fourth maximum value represents the number of pledgets that need to be generated at most in the inventory list that have not been inventoried during the inventory task period.

Here, one or more of the first minimum value, the second minimum value, the third minimum value and the fourth minimum value may be the same value, and similarly, one or more of the first maximum value, the second maximum value, the third maximum value and the fourth maximum value may be the same value.

In some embodiments, limiting the random number of the dimension-wise pledgets generated in the inventory list to a certain range (e.g., limiting the value N between the first minimum value and the second minimum value as described above) can prevent the number of pledgets to be inventoried in each inventory list from being too large or too small, making each inventory unreasonable.

In some embodiments, in the inventory task period, the abnormal inventory or the circular inventory may be performed on the pledge to be inventoried separately, or the abnormal inventory and the circular inventory may be performed on the pledge to be inventoried simultaneously. When the pledge to be inventoried in the inventory task period is synchronously inventoried and circularly inventoried, pledges to be inventoried determined by the abnormal inventory and the circularly inventoried can be generated in the same inventory list. In this scenario, if the pledge to be inventoried determined by the abnormal inventory and the circular inventory is repeated, the duplicate pledge to be inventoried may be deduplicated in the generated inventory list. For example, when the inventory is changed, the pledge a to be inventoried is determined, and when the inventory is circulated, the pledge a to be inventoried is determined, so that only one record of the pledge a to be inventoried can be generated in the inventory list.

In some embodiments, the transaction count and the loop count are separately counted during the count task period. The minimum interval duration comprises a first minimum interval duration and a second minimum interval duration, the maximum interval duration comprises a first maximum interval duration and a second maximum interval duration, the interval duration comprises a first interval duration and a second interval duration, and the random time points comprise a first random time point and a second random time point. Wherein, the abnormal counting list can be generated at the first random time point, and the circular counting list can be generated at the second random time point. A first interval duration can be randomly determined between a first minimum interval duration and a first maximum interval duration, and then a first random time point after actual counting is determined based on the completion time point of the actual counting and the first interval duration; randomly determining a second interval duration between a second minimum interval duration and a second maximum interval duration; and determining a second random time point after the actual inventory based on the completion time point of the actual inventory and the second interval duration.

In some embodiments, the creation of the inventory task performs inventory management on the pledgets to be inventory within the cycle of the inventory task. Based on this, step S10 in fig. 1 includes: an inventory task creation request is received, the inventory task creation request including data for determining a pledget to be inventoried. The data for determining the pledge to be inventoried may include the information of the financing party to which the pledge to be inventoried belongs, the information of the pledge to which the pledge to be inventoried belongs, the information of the warehouse of the pledge to be inventoried, the information of the type of the pledge to be inventoried, and the like, which are acquired from the warehouse operator system according to the scanning rules.

In some embodiments, after receiving the inventory task creation request, step S10 in fig. 1 includes: an inventory task is created based on the data used to determine the pledgets to be inventoried. Each checking task can perform checking management on the to-be-checked pledge in the checking task period, for example, the checking mode (such as selecting abnormal checking or circulating checking), the minimum interval duration and the maximum interval duration of the to-be-checked pledge in the corresponding checking task period, the number of the to-be-checked pledge included in each preset abnormal checking list, and the like can be set according to the parameters on the configuration page of each checking task. In some embodiments, a common parameter configuration page may be set for a plurality of inventory tasks, and used for receiving the pledge inventory configuration corresponding to the plurality of tasks.

In some embodiments, step S10 in fig. 1 includes: and determining the pledge to be inventoried in the inventorying task period based on the created inventorying task. For example, the to-be-checked pledget corresponding to the checking task may be determined based on the data included in the checking task creation request and used for determining the to-be-checked pledget, where the to-be-checked pledget corresponding to the checking task is the to-be-checked pledget in the corresponding checking task period.

In some embodiments, data of a pledget in a system of a warehouse operator or data of a pledget inventory system can be automatically and periodically scanned through Quartz timing task scheduling, and an inventory task is automatically established for the pledgets needing inventory screened out according to scanning rules.

In some embodiments, a Java regular expression rule engine may be used to dynamically parse the configuration rule of each inventory task, and generate an inventory list of each inventory task at a preset time point or a random time point. The generated inventory list can be stored in an inventory task pool, and the inventory staff performs inventory on the corresponding pledgets aiming at the inventory list.

In some embodiments, the Quartz timed task scheduling may also update the pledgets in the generated inventory tasks according to the scan data, so that the data of the pledgets in each inventory task is consistent with the real-time data of the pledgets in the system of the warehouse operator or the real-time data of the pledgets in the inventory system.

In some embodiments, the current-day inventory list may be randomly generated according to the configuration rule of each inventory task between the inventory start time point and the inventory end time point of each inventory workday based on each inventory task that has not completed inventory through Quartz timed task scheduling.

In some embodiments, a distributed architecture may be employed to implement inventory task generation and inventory task execution. Thus, the system can have the capacity of processing larger commodity data volume.

In some embodiments, the pledge inventory method of fig. 1 further comprises: generating an inventory report based on the corresponding inventory result at least one preset time point or one random time point. The inventory report may include actual pledget data obtained after an inventory person actually inventories pledgets in the warehouse and pledget data in the warehouse operator system or the pledget inventory system. The actual pledget data may include information on the number, weight, type, damage, etc. of pledgets in the warehouse. The actual pledget data may also include picture information, video information, etc. of the pledget.

In some embodiments, after the difference between the data of the pledgets obtained by actual inventory and the pledgets in the warehouse operator system or the pledget inventory system exceeds a preset threshold or a preset rule, the risk early warning information is triggered and generated. For example, if the difference between the actual inventory quantity of a certain type of pledge and the quantity in the system is more than 4, the risk early warning is triggered, and if the quantity of a certain type of pledge in a certain warehouse obtained by actual inventory is 10, but the quantity of the certain type of pledge in the warehouse operator system or pledge inventory system is 5, the risk early warning is triggered.

Fig. 3 is a block diagram of a pledget inventory system according to one embodiment of the present application. Referring to fig. 3, the pledge inventory system includes a pledge management module to be inventory, an inventory list generation module, and an inventory result management module. The to-be-checked pledget management module is used for determining to-be-checked pledgets in the checking task period. The inventory list generating module is used for generating one or more inventory lists at preset time points or random time points in an inventory task period based on the pledge to be inventoried, and each inventory list comprises at least part of information of the pledge to be inventoried. And the inventory result management module is used for receiving and recording an actual inventory result generated by actually inventorying the corresponding pledge to be inventoryed based on the inventory list.

In some embodiments, the inventory list generating module is specifically configured to determine the random time point, specifically:

the inventory list generating module is specifically configured to obtain a completion time point of current actual inventory.

The inventory list generation module is specifically used for randomly generating interval duration.

The inventory list generating module is specifically configured to determine the next random time point based on the completion time point of the current actual inventory and the interval duration.

In some embodiments, the inventory list generating module is specifically configured to randomly determine the interval duration between the minimum interval duration and the maximum interval duration.

In some embodiments, the minimum interval duration comprises a first minimum interval duration and a second minimum interval duration, the maximum interval duration comprises a first maximum interval duration and a second maximum interval duration, the interval duration comprises a first interval duration and a second interval duration, and the random time points comprise a first random time point and a second random time point; the inventory list generation module is specifically configured to:

randomly determining the first interval duration between the first minimum interval duration and the first maximum interval duration;

determining the first random time point after the actual inventory based on the completion time point of the actual inventory and the first interval duration;

randomly determining the second interval duration between the second minimum interval duration and the second maximum interval duration;

and determining the second random time point after the actual inventory based on the completion time point of the actual inventory and the second interval duration.

In some embodiments, the inventory list generation module generates the random time points by a random number function.

In some embodiments, the inventory list generating module is specifically configured to generate information of at least part of the pledgets to be inventory, which are included in each inventory list, and the inventory list generating module is specifically configured to:

the unit price of the pledgets to be inventorized in the inventory task period is sorted from high to low, and the information of the first N pledgets to be inventorized; and/or

Information of the top M pieces of pledgets to be checked in the sequence from high to low of the value of pledgets to be checked in the checking task period; and/or

Information of the first K pledgets to be checked in the sequence from high to low of the inventory goods value of the pledgets to be checked in the inventory task period; and/or

And H pieces of information of the pledgets to be inventoried which are not inventoried in the task cycle are inventoried.

Wherein N, M, K and H are positive integers.

In some embodiments, the inventory list generation module is specifically configured to:

randomly determining a value of N between a first minimum value and a first maximum value; and/or

Randomly determining a value of M between a second minimum value and a second maximum value; and/or

Randomly determining a value of K between a third minimum value and a third maximum value; and/or

The value of H is randomly determined between a fourth minimum value and a fourth maximum value.

In some embodiments, the inventory result management module is specifically configured to generate an inventory report based on the actual inventory result.

In some embodiments, when determining a pledget to be inventoried in an inventory task period, the pledget to be inventoried management module is specifically configured to:

receiving an inventory task creation request, wherein the inventory task creation request comprises data used for determining the pledge to be inventoried;

creating an inventory task based on the data for determining the pledge to be inventoried;

and determining the pledgets to be inventoried in the inventorying task period based on the inventorying task.

Fig. 4 is a block diagram of a pledget inventory system 40 according to an embodiment of the present application. The pledget inventory method 40 includes one or more processors 409 for implementing the above method.

The pledget system 40 includes one or more processors 400 for implementing the pledget methods described above. In some embodiments, the pledget system 40 may include a computer readable storage medium 409, which may store a program that may be invoked by the processor 400, which may include a non-volatile storage medium. In some embodiments, the pledget system 40 may include a memory 408 and an interface 407. In some embodiments, the pledget inventory system 40 may also include other hardware depending on the application.

The computer-readable storage medium 409 of an embodiment of the present application has stored thereon a program that, when executed by the processor 400, is configured to implement the pledge inventory method as described above.

This application may take the form of a computer program product embodied on one or more storage media (including, but not limited to, disk storage, CD-ROM, optical storage, etc.) having program code embodied therein. Computer-readable storage media include permanent and non-permanent, removable and non-removable media and may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer readable storage media include, but are not limited to: phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technologies, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic tape storage or other magnetic storage devices, or any other non-transmission medium, may be used to store information that may be accessed by a computing device.

The above description is only a preferred embodiment of the present disclosure, and should not be taken as limiting the present disclosure, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Claims (12)

1. A pledge inventory method, comprising:

determining the pledge to be inventoried in the inventory task period;

generating one or more inventory lists at preset time points or random time points in the inventory task period based on the pledgets to be inventoried, wherein each inventory list comprises at least part of information of the pledgets to be inventoried;

and receiving and recording an actual checking result generated by actually checking the corresponding to-be-checked pledge based on the checking list.

2. The method of pledge inventory of claim 1, including determining said random time points;

the determining the random time point comprises:

acquiring a finishing time point of current actual inventory;

randomly generating interval duration;

and determining the next random time point based on the completion time point of the current actual inventory and the interval duration.

3. The pledget method of claim 2, wherein said randomly generating an interval duration comprises:

the interval duration is randomly determined between a minimum interval duration and a maximum interval duration.

4. The pledget method of claim 3, wherein the minimum interval duration comprises a first minimum interval duration and a second minimum interval duration, the maximum interval duration comprises a first maximum interval duration and a second maximum interval duration, the interval durations comprise a first interval duration and a second interval duration, and the random time points comprise a first random time point and a second random time point;

the determining the random time point comprises:

randomly determining the first interval duration between the first minimum interval duration and the first maximum interval duration;

determining the first random time point after the actual inventory based on the completion time point of the actual inventory and the first interval duration;

randomly determining the second interval duration between the second minimum interval duration and the second maximum interval duration;

and determining the second random time point after the actual inventory based on the completion time point of the actual inventory and the second interval duration.

5. The pledge inventory method of any one of claims 2-4, wherein said determining said random point in time comprises: the random time points are generated by a random number function.

6. The pledge inventory method of claim 1, wherein said inventory list includes information of at least a portion of said pledges to be inventoried, including:

the unit price of the pledgets to be inventorized in the inventory task period is sorted from high to low, and the information of the first N pledgets to be inventorized; and/or

The information of the top M pieces of the pledgets to be checked in the sequence from high to low of the value of the pledgets to be checked in the checking task period; and/or

The information of the first K pledgets to be checked in the sequence from high to low of the inventory goods value of the pledgets to be checked in the inventory task period; and/or

In the checking task period, H pieces of information of the pledgets to be checked, which are not checked;

wherein N, M, K and H are positive integers.

7. The pledget method of claim 6, including randomly determining a value of N between a first minimum value and a first maximum value; and/or

Randomly determining a value of M between a second minimum value and a second maximum value; and/or

Randomly determining a value of K between a third minimum value and a third maximum value; and/or

The value of H is randomly determined between a fourth minimum value and a fourth maximum value.

8. The method of pledge inventory of claim 1, further comprising: and generating an inventory report based on the actual inventory result.

9. The method of claim 1, wherein the determining the pledge to be inventoried in the inventory task cycle comprises:

receiving an inventory task creation request, wherein the inventory task creation request comprises data used for determining the pledge to be inventoried;

creating an inventory task based on the data for determining the pledge to be inventoried;

and determining the pledgets to be inventoried in the inventorying task period based on the inventorying task.

10. A pledge inventory system, comprising:

the system comprises a to-be-checked pledge management module, a to-be-checked pledge management module and a to-be-checked pledge management module, wherein the to-be-checked pledge management module is used for determining to-be-checked pledges in a checking task period;

the inventory list generating module is used for generating one or more inventory lists at a preset time point or a random time point in the inventory task period based on the to-be-inventoried pledge, and each inventory list comprises at least part of information of the to-be-inventoried pledge;

and the inventory result management module is used for receiving and recording an actual inventory result generated by actually inventorying the corresponding pledge to be inventoryed based on the inventory list.

11. A pledge inventory system comprising one or more processors configured to implement the method of any one of claims 1-9.

12. A computer-readable storage medium, having stored thereon a program which, when executed by a processor, carries out the method of any one of claims 1-9.

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