CN111985861A - Logistics product light polishing coefficient management method and device and storage medium - Google Patents

Abstract

The invention discloses a method and a device for managing the light polishing coefficient of a logistics product and a storage medium, wherein the method comprises the following steps: firstly, a first corresponding relation between the to-be-selected light throwing coefficient of the target product and the quantity of the freight notes and a second corresponding relation between the to-be-selected light throwing coefficient and the income of the freight notes are obtained, and then when the light throwing coefficient is required to be selected for the logistics product, the target light throwing coefficient is selected for the target product according to the logistics product target, the first corresponding relation and the second corresponding relation which are required to be reached by the target product. In the invention, the logistics provider only needs to provide one logistics product target to obtain the light polishing coefficient corresponding to the logistics product, and does not need to select the light polishing coefficient for the logistics product according to experience, thereby solving the technical problem that the logistics provider needs to select the light polishing coefficient for the logistics product according to experience in the prior art.

Description

Logistics product light polishing coefficient management method and device and storage medium

Technical Field

The invention relates to the field of waybill charging, in particular to a method and a device for managing a light throw coefficient of a logistics product and a storage medium.

Background

With the development of the logistics industry, when a logistics provider provides logistics services, particularly logistics product services corresponding to furniture, seafood and foam, the single charging is not performed according to the actual quality of a waybill article, but the volume quality of the waybill article is obtained through calculation according to the volume and the light throw coefficient of the waybill article, then the larger one of the actual quality and the volume quality is selected as the charging quality, and then the charging price of the waybill is obtained according to the charging quality.

Aiming at the same waybill article, different charging prices can be caused by different light throwing coefficients, and further whether the user continues to select the logistics service corresponding to the logistics product can be influenced; therefore, the coefficient of throw of the logistics product will influence whether the user selects the logistics product.

In the prior art, a logistics supplier needs to select a light polishing coefficient for a logistics product according to experience, and the influence of the selected light polishing coefficient on the logistics product cannot be expected.

Disclosure of Invention

The embodiment of the invention provides a method and a device for managing a light polishing coefficient of a logistics product and a storage medium, and aims to solve the technical problem that in the prior art, a logistics provider needs to select the light polishing coefficient for the logistics product according to experience.

In order to solve the above technical problems, embodiments of the present invention provide the following technical solutions:

the embodiment of the invention provides a logistics product light polishing coefficient management method, which is used for selecting a logistics product light polishing coefficient and comprises the following steps:

acquiring a light throwing coefficient to be selected and a charging mode of an object product, wherein the light throwing coefficient is used for determining the volume and the mass of the waybill article according to the volume of the waybill article;

obtaining competitive products corresponding to the object products, and the light throwing coefficient and the charging mode of the competitive products;

acquiring waybill parameters of a first class of waybill and waybill parameters of a second class of waybill, wherein the waybill parameters comprise actual quality and volume of the waybill, the first class of waybill is the waybill actually attributed to the object product, and the second class of waybill is the waybill actually attributed to the competitive product;

obtaining a first corresponding relation and a second corresponding relation of the object product according to the charging mode of the object product, the waybill parameters of the first type waybill, the waybill parameters of the second type waybill, and the light throw coefficient and the charging mode of the competitive product, wherein the first corresponding relation is the corresponding relation between the light throw coefficient to be selected of the object product and the number of the waybill, and the second corresponding relation is the corresponding relation between the light throw coefficient to be selected of the object product and the income of the waybill;

And determining the object product from the light polishing coefficient to be selected of the object product according to the logistics product target, the first corresponding relation and the second corresponding relation of the object product.

The embodiment of the invention provides a logistics product light polishing coefficient management device, which comprises:

the object product parameter acquisition module is used for acquiring a light throwing coefficient to be selected and a charging mode of an object product, wherein the light throwing coefficient is used for determining the volume and the mass of the waybill article according to the volume of the waybill article;

a competitive product parameter obtaining module, configured to obtain a competitive product corresponding to the target product, and a light cast coefficient and a charging mode of the competitive product;

the waybill parameter acquisition module is used for acquiring waybill parameters of a first class of waybill and waybill parameters of a second class of waybill, wherein the waybill parameters comprise the actual quality and volume of the waybill, the first class of waybill is the waybill actually attributed to the object product, and the second class of waybill is the waybill actually attributed to the competitive product;

a corresponding relation determining module, configured to obtain a first corresponding relation and a second corresponding relation of the object product according to the charging mode of the object product, the waybill parameter of the first type waybill, the waybill parameter of the second type waybill, and the light throw coefficient and the charging mode of the competitive product, where the first corresponding relation is a corresponding relation between a light throw coefficient to be selected of the object product and the waybill quantity, and the second corresponding relation is a corresponding relation between a light throw coefficient to be selected of the object product and the waybill income;

And the light throwing coefficient selection module is used for determining a target light throwing coefficient of the object product from the light throwing coefficients to be selected of the object product according to the logistics product target, the first corresponding relation and the second corresponding relation of the object product, wherein the logistics product target comprises the preset freight bill quantity and the preset freight bill income.

The embodiment of the invention provides a storage medium, wherein a plurality of instructions are stored in the storage medium, and the instructions are suitable for being loaded by a processor to execute the steps in the logistics product light polishing coefficient management method provided by the embodiment of the invention.

The invention provides a method and a device for managing the light polishing coefficient of a logistics product and a storage medium, wherein the method comprises the following steps: the method comprises the steps of obtaining a to-be-selected light throwing coefficient and a charging mode of an object product, obtaining a waybill parameter of a first class waybill of an attributive object product and a waybill parameter of a second class waybill of an attributive competitive product, obtaining a first corresponding relation between the to-be-selected light throwing coefficient and the number of the waybill of the object product and a second corresponding relation between the to-be-selected light throwing coefficient and the income of the waybill based on the information, and finally selecting a target light throwing coefficient for the object product according to a logistics product target, the first corresponding relation and the second corresponding relation which are required to be reached by the object product when the light throwing coefficient is required to be selected for the logistics product. In the invention, the logistics provider only needs to provide a logistics product target comprising the preset freight note quantity and the preset freight note income, and can obtain the light throwing coefficient simultaneously meeting the preset freight note quantity and the preset freight note income according to the preset freight note quantity and the first corresponding relation and the preset freight note income and use the light throwing coefficient as the target light throwing coefficient of the logistics product, but does not require the logistics provider to select the light throwing coefficient for the logistics product according to experience.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic networking diagram of a charging system provided in an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a method for managing the coefficient of light polishing of a logistics product according to an embodiment of the invention;

fig. 3 is a flowchart illustrating an waybill charging method according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a logistics product light polishing coefficient management device provided by an embodiment of the invention;

fig. 5 is a schematic unit diagram of a server according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Aiming at the technical problem that the conventional logistics suppliers need to select the light polishing coefficient for the logistics products according to experience, the embodiment of the invention can solve the problem.

In some embodiments of the present invention, the logistics product refers to different types of logistics services provided by the logistics provider for different types of waybill items, such as documents, seafood, furniture, foam, and the like.

In some embodiments of the invention, the light throw factor is used to determine the volumetric mass of the item of the waybill based on the volume of the item of the waybill. For example, the volume in cubic centimeters is divided by the light polishing coefficient to obtain a value, and as the volume mass in kilograms, if the volume of the waybill item is 100000 cubic centimeters and the light polishing coefficient is 2000, then the corresponding volume mass is: 100000/2000-50 kg.

In some embodiments of the present invention, the billing quality of the waybill is a parameter quality of waybill billing, which is the maximum of the actual quality and the volume quality. For example, if the actual mass of a certain waybill article is 20 kg, the volume mass is 15 kg, and the charging mass is 20 kg, or if the actual mass of a certain waybill article is 20 kg, the volume mass is 50 kg, and the charging mass is 50 kg.

In some embodiments of the present invention, the billing method is set by the logistics provider, and the A yuan is collected according to the first weight price and the second weight price, for example, the A yuan is collected within 1kg of the freight bill, the B yuan is collected per kg within 1-10kg of the freight bill, the C yuan is collected per kg within 10-30kg of the freight bill, and the like.

In some embodiments of the present invention, the logistics provider calculates the charging price and the charging method, for example, the charging quality of a certain waybill item is 15 kg, and then the charging price is a +9B +5C yuan.

In some embodiments of the present invention, the logistics product target is a target that the logistics provider wishes to achieve with a certain logistics product, including a preset number of waybills and a preset revenue for waybills.

In some embodiments of the present invention, the target product refers to a logistics product, such as a foam product, which needs to be set with a light polishing coefficient, among all logistics products provided by a logistics provider; the competitive products refer to the logistics products provided by other logistics suppliers and provided by the target products for the same type of waybill goods, and the number of the competitive products can be more than one.

In some embodiments of the present invention, the light polishing coefficients to be selected for the subject product are a set of selectable light polishing coefficients, such as 1000, 3000, 4000, etc., with a maximum value of 12000, and every 1000 or 500 selectable light polishing coefficients.

In some embodiments of the present invention, the light throw coefficient of a competitive product refers to a light throw coefficient used by the competitive product, one competitive product corresponds to one light throw coefficient, and the light throw coefficient corresponding to each competitive product is uniquely determined.

In some embodiments of the present invention, the first type of waybills refers to all waybills that a user (logistics product selector) selects to use a target product, i.e. waybills that actually belong to the target product; and the second kind of waybills refers to all waybills that the user (logistics product selector) selects to use the competitive products, namely the waybills that are actually attributed to the competitive products.

In some embodiments of the present invention, the user (the logistics product selector) refers to a person who can be familiar with the billing method of each logistics product and can select the logistics product according to the lowest billing price.

In some embodiments of the present invention, the average value of the billing quality of the waybill refers to an average value of the total charge quality of a predetermined number of waybills, which is related to the transportation cost of the logistics product. Generally, the larger the average value of the billing quality of the waybill, the lower the transportation cost.

Referring to fig. 1, fig. 1 is a schematic view of a scenario of a charging system according to an embodiment of the present invention, where the logistics system may include a plurality of charging terminals 11, a configuration terminal 12, and a server 13; wherein:

The charging terminal 11 is generally a handheld terminal of a logistics service provider (such as a courier) and is used for acquiring the actual quality, volume, charging quality, charging price, charging and the like of the waybill article;

the configuration terminal 12 is generally a terminal device of a management layer of a logistics provider, and is configured to obtain logistics product targets such as a preset freight note quantity and a preset freight note income of certain logistics products according to the setting of the management layer, and transmit the logistics product targets to the server 13;

the server 13 is the core of the charging system, and is used for performing storage management of data, and the like, and in the present invention, is used for determining the target product, the charging mode of the target product, and the logistics product target of the target product at least according to the configuration signal from the configuration terminal 12; then obtaining the light throwing coefficient to be selected and the charging mode of the object product, obtaining the competitive product corresponding to the object product, and the light throwing coefficient and the charging mode of the competitive products, acquiring the waybill parameters of the first class of waybills and the waybill parameters of the second class of waybills, wherein the waybill parameters comprise the actual mass and volume of the waybill, obtaining a first corresponding relation and a second corresponding relation of the object product according to the charging mode of the object product, the waybill parameters of the first type waybill, the waybill parameters of the second type waybill, and the light throwing coefficient and the charging mode of the competitive product, and according to the logistics product target, the first corresponding relation and the second corresponding relation of the object product, from the light polishing coefficient to be selected of the object product, and determining a target light throwing coefficient of the object product, wherein the logistics product target comprises a preset freight bill quantity and a preset freight bill income.

In some embodiments of the present invention, the waybill data size is too large, and in order to reduce the data computation amount, only the waybill parameter of the first type waybill and the waybill parameter of the second type waybill within a predetermined time period may be obtained, where the predetermined time period is a time period, such as one month, three months, one year, and the like.

In some embodiments of the present invention, the charging terminal 11 may store a light throw coefficient and a charging mode corresponding to the logistics product, and the charging terminal 11 obtains a charging price of the waybill item according to the light throw coefficient and the charging mode, and uploads the charging price to the server 13 after the user pays the fee.

In some embodiments of the present invention, the charging terminal 11 does not store the light throw coefficient and the charging mode corresponding to the logistics product, the charging terminal 11 uploads the actual mass and volume of the waybill article to the server 13, the server 13 obtains the charging price of the waybill article according to the light throw coefficient and the charging mode, and then issues the charging price to the charging terminal 11 for charging, and the charging terminal 11 uploads the charging price to the server 13 after the user pays the fee.

In some embodiments of the present invention, after the configuration terminal 12 is connected to the server 13, the server 13 displays a configuration interface for the user to select an object product that needs to set a light throw coefficient, a charging mode of the object product, a logistics product target of the object product, and the like, and after the configuration terminal 12 completes configuration, the user sends the configuration interface to the server 13.

The embodiment provides a charging system, wherein a server in the charging system obtains a first corresponding relation between a to-be-selected light casting coefficient and the quantity of a waybill of each logistics product and a second corresponding relation between the to-be-selected light casting coefficient and the income of the waybill according to past data; then determining a proper light polishing coefficient (namely the target light polishing coefficient) for the logistics product according to the logistics product target of the logistics product set by the user; in this way, the logistics provider can obtain the light polishing coefficient corresponding to the logistics product only by providing the logistics product target to be achieved, such as the number of the waybills, the income of the waybills and the like, and the logistics provider is not required to select the light polishing coefficient for the logistics product according to experience.

It should be noted that the system scenario diagram shown in fig. 1 is only an example, and the server and the scenario described in the embodiment of the present invention are for more clearly illustrating the technical solution of the embodiment of the present invention, and do not form a limitation on the technical solution provided in the embodiment of the present invention.

The logistics product light polishing coefficient management method provided by the invention is explained in detail.

Fig. 2 is a schematic flow chart of a method for managing a coefficient of soft polishing of a logistics product according to an embodiment of the present invention, and referring to fig. 2, the method for managing a coefficient of soft polishing of a logistics product for determining a coefficient of soft polishing of a logistics product according to the embodiment includes the following steps:

s201: and acquiring a to-be-selected light throwing coefficient and a charging mode of the target product.

In some embodiments of the invention, this step comprises the steps of:

the server 13 receives the configuration signal from the configuration terminal 12;

determining a target product among all the provided logistics products according to the configuration signal; the number of the object products may be one or more;

and generating a to-be-selected light throwing coefficient and a charging mode of the object product according to the setting mode in the configuration signal.

In some embodiments of the present invention, the setting mode may be a fixed mode or a default mode.

The fixed mode refers to that the light polishing coefficient to be selected and the charging mode are already set in the configuration signal, for example, the corresponding light polishing coefficient to be selected (light polishing coefficients X1 to Xn and the like) is configured for the target product 1 in the configuration signal, and the corresponding charging mode is configured for the target product 1 (within 1kg, a unit is charged, 1-10kg, B unit per kilogram, 10-30kg, C unit per kilogram and the like).

The default mode is that the configuration signal does not set the light throw coefficient to be selected and the charging mode, and the server 13 automatically generates the light throw coefficient to be selected and the charging mode, for example, the server 13 automatically configures the corresponding light throw coefficient to be selected (light throw coefficients X1 to Xn, etc.) for the object product 1 according to the existing general configuration mode, and configures the corresponding charging mode for the object product 1 (within 1kg, a is received, 1-10kg, B is received, and 10-30kg, C is received, and so on).

After this step was performed, the data shown in table 1 below were obtained.

TABLE 1

As can be seen from table 1, the to-be-selected light polishing coefficients of the object product 1 are n light polishing coefficients X1 to Xn, and the charging mode of the object product 1 is J.

S202: and obtaining a competitive product corresponding to the object product, and a light throwing coefficient and a charging mode of the competitive product.

In some embodiments of the invention, this step comprises:

acquiring the type of the waybill article corresponding to the object product; such as seafood, foam, etc.;

selecting logistics products with the same waybill article type from logistics products provided by other logistics suppliers as competitive products;

and acquiring the light throwing coefficient and the charging mode of competitive products.

After this step was performed, the data shown in table 2 below were obtained.

Logistics product	Competition product 1	……	Competition product i	……	Competitive product m
						Charging mode	J1	……	Ji	……	Jm
Coefficient of light polishing	s1	……	si	……	sm

TABLE 2

As can be seen from table 2, the competitive products include m competitive products from competitive product 1 to competitive product m, the charging mode corresponding to competitive product 1 is J1, the light throw coefficient is S1, and the charging mode and the light throw coefficient of other competitive products are shown in table 2.

S203: and acquiring the waybill parameters of the first type of waybill and the waybill parameters of the second type of waybill.

In some embodiments of the invention, this step comprises:

determining a data source according to the configuration signal from the configuration terminal, wherein the data source is an official website of a logistics provider, for example;

acquiring waybill data of the first type of waybill and waybill data of the second type of waybill; for example, acquiring the waybill data of the first type waybill and the waybill data of the second type waybill within a preset time (nearly 3 months);

the waybill data of the first type of waybill and the waybill data of the second type of waybill are subjected to privacy removal processing, for example, privacy information such as user names, addresses, telephones, article contents and the like in the waybill data are removed;

And performing data extraction on the waybill data subjected to privacy removal processing to obtain waybill parameters of the first type of waybill and waybill parameters of the second type of waybill.

The embodiment has higher statistical accuracy by using the real waybill data in the preset time.

In some embodiments of the invention, the waybill data comprises privacy data such as user name, address, telephone, article content, sender information, recipient information and the like, and the privacy data does not help in selecting the light throw coefficient, can be removed, and simultaneously ensures the user privacy.

In some embodiments of the present invention, the waybill parameter may only include the actual quality and volume of the waybill, and may also include the billing price of the waybill at the same time, so as to reduce the subsequent calculation amount.

After this step was performed, the data shown in table 3 below were obtained.

TABLE 3

In table 3, waybills 1 to m are the first type waybills, and waybills n to z are the second type waybills; the total number of the waybills is ten thousand, and is not less than one hundred thousand, so that the accuracy of data statistics is protected.

S204: and obtaining a first corresponding relation and a second corresponding relation according to the charging mode of the object product, the waybill parameters of the first type waybill, the waybill parameters of the second type waybill, and the light throwing coefficient and the charging mode of the competitive product.

In some embodiments of the present invention, the first corresponding relationship is a corresponding relationship between the light throwing coefficient to be selected of the target product and the number of the waybills, and the second corresponding relationship is a corresponding relationship between the light throwing coefficient to be selected of the target product and the income of the waybills.

In some embodiments of the invention, this step comprises:

determining a fourth corresponding relation according to the waybill parameters of the first type waybill, the charging mode of the object product and the light throw coefficient to be selected, wherein the fourth corresponding relation is the corresponding relation between the charging price of the first type waybill and the light throw coefficient to be selected;

determining a fifth corresponding relation according to the waybill parameters of the second type waybill, the charging mode of the object product and the light throw coefficient to be selected, wherein the fifth corresponding relation is the corresponding relation between the charging price of the second type waybill and the light throw coefficient to be selected;

determining a sixth corresponding relation according to the waybill parameters of the first type of waybill, the light throw coefficient and the charging mode of the competitive products, wherein the sixth corresponding relation is the corresponding relation between the charging price of the first type of waybill and the light throw coefficient of the competitive products;

Acquiring a seventh corresponding relation, wherein the seventh corresponding relation is the corresponding relation between the charging price of the second type of waybill and the light throw coefficient of the competitive product;

and re-dividing the first class of waybills and the second class of waybills according to the fourth corresponding relationship, the fifth corresponding relationship, the sixth corresponding relationship, the seventh corresponding relationship and a product selection condition to obtain the first corresponding relationship and the second corresponding relationship.

In some embodiments of the present invention, the step of determining a fourth corresponding relationship between the charging price of the first type of waybill and the light throw coefficient to be selected according to the waybill parameter of the first type of waybill, the charging mode of the object product, and the light throw coefficient to be selected includes:

determining an eighth corresponding relation according to the waybill parameters of the first type waybill and the light throw coefficient to be selected, wherein the eighth corresponding relation is the corresponding relation between the charging quality of the first type waybill and the light throw coefficient to be selected; the waybill parameters of the same first class waybill may have different charging qualities for different to-be-selected light cast coefficients.

For example, the waybill parameter of the waybill 1 is that the actual mass is 20 kg, the volume is 100000 cubic centimeters, the light throw coefficient to be selected X1 is specified (for example, the size of the light throw coefficient to be selected X1 is 2000), the corresponding volume mass of the waybill 1 is 100000/2000-50 kg, the corresponding billing mass W1-X1 is 50 kg, the light throw coefficient to be selected Xn is specified (for example, the size of the light throw coefficient to be selected Xn is 10000), the corresponding volume mass of the waybill 1 is 100000/10000-10 kg, and the corresponding billing mass W1-Xn is 20 kg.

Therefore, for all the waybills of the first type and all the light polishing coefficients to be selected, after executing this step, the eighth corresponding relationship shown in table 4 below is obtained.

TABLE 4

And obtaining the fourth corresponding relation according to the charging mode of the object product and the eighth corresponding relation.

Because the waybill parameters of the same first class waybill may have different charging qualities for different to-be-selected light throw coefficients, the charging prices may be different in the same charging mode.

Taking an example that a billing mode J is within 1kg to collect 5 yuan, 1-10kg to collect 2 yuan per kilogram, and more than 10kg to collect 1 yuan per kilogram, for example, the waybill parameter of the waybill 1 is 20 kg in actual mass and 100000 cubic centimeters in volume, the waybill coefficient X1 to be selected (for example, the waybill coefficient X1 to be selected is 2000 in size), the billing mass W1-X1 corresponding to the waybill 1 is 50 kg, the billing price Y1-X1 corresponding to the waybill 1 is 5+9 × 2+40 ═ 63 yuan, the waybill coefficient Xn to be selected (for example, the waybill coefficient Xn to be selected is 10000 in size), the billing mass W1-Xn corresponding to the waybill 1 is 20 kg, and the billing price Y1-Xn corresponding to the waybill coefficient X is 5+9 × 2+10 ═ 33 yuan.

Therefore, after the step is performed for all the waybills of the first type and all the light throw coefficients to be selected, a fourth corresponding relationship shown in the following table 5 is obtained.

TABLE 5

In some embodiments of the present invention, the step of determining a fifth corresponding relationship between the charging price of the second type of waybill and the light throw coefficient to be selected according to the waybill parameter of the second type of waybill, the charging mode of the object product, and the light throw coefficient to be selected includes:

determining a ninth corresponding relation according to the waybill parameters of the second type waybill and the light throw coefficient to be selected, wherein the ninth corresponding relation is the corresponding relation between the charging quality of the second type waybill and the light throw coefficient to be selected; the waybill parameters of the same second class waybill may have different charging qualities for different to-be-selected light cast coefficients.

For example, the waybill parameter of the waybill n is that the actual mass is 20 kg, the volume is 100000 cubic centimeters, the light throw coefficient to be selected X1 is specified (for example, the size of the light throw coefficient to be selected X1 is 2000), the volume mass corresponding to the waybill n is 100000/2000-50 kg, the corresponding billing mass Wn-X1 is 50 kg, the light throw coefficient to be selected Xn is specified (for example, the size of the light throw coefficient to be selected Xn is 10000), the volume mass corresponding to the waybill n is 100000/10000-10 kg, and the corresponding billing mass Wn-Xn is 20 kg.

Therefore, for all the second kind waybills and all the light polishing coefficients to be selected, after executing this step, the ninth corresponding relationship shown in table 6 below is obtained.

TABLE 6

And obtaining the fifth corresponding relation according to the charging mode of the object product and the ninth corresponding relation.

Because the waybill parameters of the same second class waybill may have different charging qualities for different to-be-selected light throw coefficients, the charging prices may be different in the same charging mode.

Taking an example that a billing mode J is within 1kg to collect 5 yuan, 1-10kg to collect 2 yuan per kilogram, and more than 10kg to collect 1 yuan per kilogram, for example, a waybill parameter of the waybill n is 20 kg in actual mass, and the volume is 100000 cubic centimeters, for a light throw coefficient Xn to be selected (for example, the size of the light throw coefficient X1 to be selected is 2000), a billing mass Wn-X1 corresponding to the waybill 1 is 50 kg, a billing price Yn-X1 corresponding to the waybill n is 5+9 × 2+40 × 63 yuan, for a light throw coefficient Xn to be selected (for example, the size of the light throw coefficient Xn to be selected is 10000), a billing mass Wn-Xn corresponding to the waybill n is 20 kg, and a billing price Yn-Xn corresponding to the waybill n is 5+9 × 2+10 × 33 yuan.

Therefore, after the step is performed for all the waybills of the second type and all the light polishing coefficients to be selected, a fifth corresponding relationship shown in table 7 below is obtained.

TABLE 7

In some embodiments of the present invention, the step of determining a sixth correspondence between the billing price of the first type of waybills and the light throw coefficient of the competitive products according to the waybill parameters of the first type of waybills, and the light throw coefficient and the billing method of the competitive products includes:

And determining a tenth corresponding relation according to the waybill parameters of the first type of waybill and the light throwing coefficient of the competitive product, wherein the tenth corresponding relation is the corresponding relation between the charging quality of the first type of waybill and the light throwing coefficient of the competitive product.

The waybill parameters of the same first class waybill may have different charging quality according to the light throwing coefficients of different competitive products.

For example, the waybill parameter of the waybill 1 is that the actual mass is 20 kg, the volume is 100000 cubic centimeters, the light throw coefficient s1 for the competitive product 1 (for example, the size of the light throw coefficient s1 is 2000), the corresponding volume mass of the waybill 1 is 100000/2000-50 kg, the corresponding billing mass W1-s1 is 50 kg, the light throw coefficient sm for the competitive product m (for example, the size of the light throw coefficient sm is 10000), the corresponding volume mass of the waybill 1 is 100000/10000-10 kg, and the corresponding billing mass W1-sm is 20 kg.

Therefore, for all the first kind of waybills and all the light throw coefficients (s1 to sm) of the competing products, after the execution of this step, the tenth correspondence shown in table 8 below is obtained.

TABLE 8

And determining the sixth corresponding relation according to the charging mode of the competitive products and the tenth corresponding relation.

Because the waybill parameters of the same first class waybill and the light throw coefficients aiming at different competitive products, the charging quality can be different, and the charging price can be different under different charging modes (J1 to Jm).

For example, charging 5 yuan for 1kg by J1, 2 yuan per kg for 1-10kg, 1 yuan per kg for more than 10kg, 5 yuan per kg for 1kg by Jm, 1 yuan per kg for 1-10kg, and 1 yuan per kg for more than 10kg, for example, the waybill parameter of the waybill 1 is that the actual mass is 20 kg, the volume is 100000 cubic centimeters, the light throw coefficient s1 for the competitive product 1 (for example, the size of the light throw coefficient s1 is 2000), the billing mass W1-s1 corresponding to the waybill 1 is 50 kg, the billing price Y1-s1 corresponding to the billing method J1 for the competitive product 1 is 5+9 × 2+40 × 63 yuan, the light throw coefficient sm for the competitive product m (for example, the size of the light throw coefficient sm is 10000), the billing mass W1-sm corresponding to the waybill 1 is 20 kg, and the billing price Y1-sm corresponding to the billing method Jm for the competitive product m is 5+9 × 1+10 × 24 yuan.

Therefore, after this step is performed for all the first kind of waybills and the light throw coefficients (s1 to sm) of all the competing products, the sixth correspondence shown in table 9 below is obtained.

Logistics product	Competition product 1	……	Competition product i	……	Competitive product m
						Charging mode	J1	……	Ji	……	Jm
Coefficient of light polishing	s1	……	si	……	sm
						Waybill 1	Y1-s1	……	Y1-si	……	Y1-sm
Waybill 2	Y2-s1	……	Y2-si	……	Y2-sm
						……	……	……	……	……	……
Waybill m	Ym-s1	……	Ym-si	……	Ym-sm

TABLE 9

In some embodiments of the present invention, the step of obtaining a seventh corresponding relationship between the charging price of the second type of waybill and the light throw coefficient of the competitive product includes: and performing data extraction on the waybill parameters shown in the table 3 to obtain the seventh corresponding relation. The implementation mode of the embodiment is simple, and is not described in detail, so that the data acquisition calculation amount is simplified.

In some embodiments of the present invention, the step of obtaining a seventh corresponding relationship between the charging price of the second type of waybill and the light throw coefficient of the competitive product includes: and determining the seventh corresponding relation according to the waybill parameters of the second type of waybill, the light throwing coefficient and the charging mode of the competitive products.

In some embodiments of the present invention, the step of determining the seventh mapping relationship according to the waybill parameter of the second type waybill, the light throw coefficient of the competitive product, and the charging method includes:

and determining an eleventh corresponding relation according to the waybill parameters of the second type waybill and the light throwing coefficients of the competitive products, wherein the eleventh corresponding relation is the corresponding relation between the charging quality of the second type waybill and the light throwing coefficients of all the competitive products.

The waybill parameters of the same second class waybill may have different charging quality according to the light throwing coefficients of different competitive products.

For example, the waybill parameter of the waybill n is that the actual mass is 20 kg, the volume is 100000 cubic centimeters, the light throw coefficient s1 for the competitive product 1 (for example, the size of the light throw coefficient s1 is 2000), the volume mass corresponding to the waybill n is 100000/2000-50 kg, the corresponding billing mass Wn-s1 is 50 kg, the light throw coefficient sm for the competitive product m (for example, the size of the light throw coefficient sm is 10000), the volume mass corresponding to the waybill n is 100000/10000-10 kg, and the corresponding billing mass Wn-sm is 20 kg.

Therefore, for all the second kind waybills and all the light throw coefficients (s1 to sm) of the competitive products, after the step is performed, the eleventh corresponding relationship shown in the following table 10 is obtained.

Logistics product	Competition product 1	……	Competition product i	……	Competitive product m
						Charging mode	J1	……	Ji	……	Jm
Coefficient of light polishing	s1	……	si	……	sm
						Waybill n	Wn-s1	……	Wn-si	……	Wn-sm
……	……	……	……	……	……
						Waybill z	Wz-s1	……	Wz-si	……	Wz-sm

Watch 10

And determining the seventh corresponding relation according to the charging mode of the competitive products and the eleventh corresponding relation.

Because the waybill parameters of the same second class waybill and the light throw coefficients aiming at different competitive products, the charging quality can be different, and the charging price can be different under different charging modes (J1 to Jm).

For example, charging 5 yuan for 1kg by J1, 2 yuan per kg for 1-10kg, 1 yuan per kg for more than 10kg, 5 yuan per kg for 1kg by Jm, 1 yuan per kg for 1-10kg, and 1 yuan per kg for more than 10kg, for example, the waybill parameter of the waybill n is 20 kg in actual mass and 100000 cubic centimeters in volume, the light throw coefficient s1 for the competitive product 1 (for example, the size of the light throw coefficient s1 is 2000), the billing mass Wn-s1 for the waybill n is 50 kg, the billing price Yn-s1 for the billing method J1 for the competitive product 1 is 5+9 × 2+40 × 63 yuan, the light throw coefficient sm for the competitive product m (for example, the size of the light throw coefficient sm is 10000), the billing mass Wn-sm for the waybill n is 20 kg, and the billing price Yn-sm for the billing method Jm for the competitive product m is 5+9 × 1+10 × 24 yuan.

Therefore, after the present step is performed for all the second kind waybills and all the light throw coefficients (s1 to sm) of the competing products, a seventh correspondence relationship as shown in table 11 below is obtained.

Logistics product	Competition product 1	……	Competition product i	……	Competitive product m
						Charging mode	J1	……	Ji	……	Jm
Coefficient of light polishing	s1	……	si	……	sm
						Waybill n	Yn-s1	……	Yn-si	……	Yn-sm
……	……	……	……	……	……
						Waybill z	Yz-s1	……	Yz-si	……	Yz-sm

TABLE 11

In some embodiments of the invention, the product selection condition comprises selecting a product for which the billing price is low; the step of re-dividing the first type of waybills and the second type of waybills according to the fourth corresponding relationship, the fifth corresponding relationship, the sixth corresponding relationship, the seventh corresponding relationship and the product selection condition to obtain the first corresponding relationship and the second corresponding relationship includes:

And re-dividing the first class waybill according to the fourth corresponding relation, the sixth corresponding relation and the product selection condition to obtain the attribution relation between the to-be-selected light throw coefficient of the object product and the first class waybill.

For example, aiming at the freight note 1 and the light throw coefficient x1 to be selected, if the charging price Y1-x1 is larger than any one of the charging price Y1-s1 to the charging price Y1-sm, the freight note 1 does not belong to the object product with the light throw coefficient being the light throw coefficient x1, if the charging prices Y1-x1 are all smaller than the charging prices Y1-s1 to the charging price Y1-sm, the freight note 1 belongs to the object product with the light throw coefficient being the light throw coefficient x1, and so on.

Therefore, after the step is executed for all the first type waybills and all the light polishing coefficients to be selected, the attribution relationship between the light polishing coefficients to be selected and the first type waybills as shown in the following table 12 is obtained.

TABLE 12

And re-dividing the second class waybill according to the fifth corresponding relation, the seventh corresponding relation and the product selection condition to obtain the attribution relation between the to-be-selected light throw coefficient of the object product and the second class waybill.

For example, aiming at the freight note z and the light throw coefficient x1 to be selected, if the charging price Yz-x1 is larger than any one of the charging price Yz-s1 to the charging price Yz-sm, the freight note z does not belong to the object product with the light throw coefficient being the light throw coefficient x1, if the charging prices Yz-x1 are all smaller than the charging price Yz-s1 to the charging price Yz-sm, the freight note z belongs to the object product with the light throw coefficient being the light throw coefficient x1, and the like.

Therefore, after the step is executed for all the second-type waybills and all the light polishing coefficients to be selected, the attribution relationship between the light polishing coefficients to be selected and the second-type waybills as shown in the following table 13 is obtained.

Watch 13

In table 12 and table 13, the attribute relationship is "yes", which represents that the corresponding shipping bill is attributed to the target product whose light throw coefficient is the corresponding light throw coefficient; and if the attribution relationship is 'no', the corresponding waybill is not attributed to the object product with the corresponding light polishing coefficient.

According to the attribution relationship between the to-be-selected light throwing coefficient of the target product and the first type of waybills and the attribution relationship between the to-be-selected light throwing coefficient and the second type of waybills, obtaining a first corresponding relationship between the selected light throwing coefficient and the number of the waybills and a second corresponding relationship between the to-be-selected light throwing coefficient and the income of the waybills; in this step, the attribution relationship between the light throwing coefficient to be selected and the first type of waybills as shown in table 12 and the attribution relationship between the light throwing coefficient to be selected and the second type of waybills as shown in table 13 are counted to obtain the result.

After this step is performed, a first correspondence of the selected light cast factor to the number of waybills is obtained as shown in table 14 below.

Coefficient of light polishing	x1	……	xi	……	xn
						Number of waybills	E1	……	Ei	……	En

TABLE 14

In table 14, the waybill number Ei is the total number of all waybills that belong to the object product whose light cast coefficient is the light cast coefficient xi in table 12 and table 13.

After this step is performed, a second correspondence of the selected light cast factor to the waybill revenue is obtained as shown in table 15 below.

Coefficient of light polishing	x1	……	xi	……	xn
						Income of waybill	F1	……	Fi	……	Fn

Watch 15

In table 15, the waybill number Fi is the total charge price of all waybills assigned to the target product whose light throw coefficient is the light throw coefficient xi in table 12 and table 13.

In some embodiments of the invention, the step further comprises: and acquiring a third corresponding relation of the object product, wherein the third corresponding relation is the third corresponding relation between the light throwing coefficient to be selected of the object product and the average value of the charging quality. In this step, the attribution relationship between the light throwing coefficient to be selected and the first type of waybills as shown in table 12 and the attribution relationship between the light throwing coefficient to be selected and the second type of waybills as shown in table 13 are counted to obtain the result.

After the step is executed, a third corresponding relationship between the light throw coefficient to be selected and the average charging quality value is obtained as shown in the following table 16.

TABLE 16

In table 16, the waybill number Gi is the average of the total charge mass of all waybills assigned to the subject product whose light throw coefficient is the light throw coefficient xi in table 12 and table 13.

S205: and determining a target light throwing coefficient for the object product according to the logistics product target of the object product, the first corresponding relation and the second corresponding relation, wherein the logistics product target comprises a preset freight bill quantity and a preset freight bill income.

In some embodiments of the invention, this step comprises:

selecting a light throwing coefficient from the light throwing coefficients to be selected according to the preset waybill number and the first corresponding relation to construct a first set; in the first corresponding relationship between the selection light cast coefficient and the waybill number shown in table 14, when the selection waybill number Ei meets the preset waybill number, the corresponding light cast coefficient, for example, the waybill number E1 and En meet the preset waybill number, and then the corresponding light cast coefficient x1 and the light cast coefficient xn are constructed to obtain a first set;

selecting a light throwing coefficient from the light throwing coefficients to be selected according to the preset waybill income and the second corresponding relation to construct a second set; in the second correspondence between the selected light projectile coefficients and the waybill income shown in table 15, when the waybill income Fi meets the preset waybill income, corresponding light projectile coefficients, for example, waybill income F1 meets the preset waybill number, and then corresponding light projectile coefficients x1 are constructed to obtain a second set;

Determining a target light polishing coefficient of the object product according to the same light polishing coefficients in the first set and the second set; the step is to simply take the same light polishing coefficient of the first set and the second set as the target light polishing coefficient of the target product, for example, if the same light polishing coefficient of the first set and the second set is the light polishing coefficient x1, the light polishing coefficient x1 is the target light polishing coefficient of the target product.

In some embodiments of the present invention, the step of determining the target soft polishing coefficient of the target product according to the same soft polishing coefficients in the first set and the second set comprises:

acquiring the number of the same light polishing coefficients;

if the number of the same light throwing coefficients is one, determining the same light throwing coefficients as target light throwing coefficients of the target product, for example, if the number of the same light throwing coefficients of the first set and the second set is one, the number of the same light throwing coefficients is x1, and the number of the same light throwing coefficients is one, the target light throwing coefficients of the target product is x 1;

if the number of the same light throwing coefficients is more than one, acquiring the third corresponding relation;

according to the third corresponding relation, selecting a light polishing coefficient from the same light polishing coefficients, and determining the light polishing coefficient as a target light polishing coefficient of the object product; for example, if the light throwing coefficients of the first set and the second set are the light throwing coefficients x1 and x2, and the number is more than one, the light throwing coefficient corresponding to the minimum charging quality average value is selected according to the third corresponding relationship between the light throwing coefficient to be selected and the charging quality average value shown in table 16, and the target light throwing coefficient of the target product is determined, for example, the charging quality average value corresponding to the light throwing coefficient x1 is G1, the charging quality average value corresponding to the light throwing coefficient x2 is G2, and the charging quality average value G1 is greater than the charging quality average value G2, the light throwing coefficient x2 corresponding to the charging quality average value G2 is selected as the target light throwing coefficient of the target product.

The embodiment provides a management method for the light polishing coefficient of a logistics product, which comprises the steps of obtaining the light polishing coefficient corresponding to the logistics product only by providing a logistics product target, such as the number of freight notes and income of freight notes, and does not require a logistics supplier to select the light polishing coefficient for the logistics product according to experience, and simultaneously can enable the logistics product to achieve the corresponding logistics product target according to the light polishing coefficient selected by the logistics product target.

The present invention will now be further explained with reference to specific scenarios as examples.

As shown in fig. 3, the waybill charging method provided in this embodiment includes the following steps:

s301: and the server processes the logistics product data.

The server executes steps S201 to S204 in the method shown in fig. 2 for all the logistics products, and obtains a first corresponding relationship between the selection light throwing coefficient and the freight note number shown in table 14, a second corresponding relationship between the selection light throwing coefficient and the freight note income shown in table 15, and a third corresponding relationship between the to-be-selected light throwing coefficient and the average value of the charging quality shown in table 16.

S302: the configuration terminal sends a configuration signal.

And the user sends a configuration signal through the configuration terminal, wherein the configuration signal carries the object product needing to adjust the light polishing coefficient and the corresponding logistics product target.

S303: the server sets the light polishing coefficient of the object product.

As a result of the execution of step S301, step S205 in the method shown in fig. 2 is executed for all the target products selected by the user to set the light cast coefficient of the target products.

S304: and the server sends the light casting coefficient of the logistics product to the charging terminal.

In order to facilitate the charging terminal to operate offline, in this embodiment, the server sends the light casting coefficient of the logistics product to the charging terminal.

S305: and the charging terminal calculates the charging price of the waybill article.

The charging terminal stores a light throwing coefficient and a charging mode corresponding to the logistics product, and obtains the charging price of the waybill article according to the light throwing coefficient and the charging mode.

S306: and uploading the waybill data on the charging terminal.

After the user pays the fee, the charging terminal uploads the waybill data to the server.

Correspondingly, fig. 4 is a schematic structural diagram of a logistics product coefficient management device for light polishing provided by an embodiment of the present invention, and referring to fig. 4, the logistics product coefficient management device for light polishing provided by the present invention includes:

the object product parameter obtaining module 41 is configured to obtain a to-be-selected light throwing coefficient and a charging mode of an object product, where the light throwing coefficient is used to determine the volume and mass of the waybill article according to the volume of the waybill article;

A competitive product parameter obtaining module 42, configured to obtain a competitive product corresponding to the target product, and a light cast coefficient and a charging mode of the competitive product;

a waybill parameter obtaining module 43, configured to obtain waybill parameters of a first type of waybill and waybill parameters of a second type of waybill, where the waybill parameters include actual quality and volume of the waybill, the first type of waybill is a waybill actually attributed to the object product, and the second type of waybill is a waybill actually attributed to the competitive product;

a correspondence determining module 44, configured to obtain a first correspondence and a second correspondence of the target product according to the charging mode of the target product, the waybill parameter of the first type of waybill, the waybill parameter of the second type of waybill, and the light throw coefficient and the charging mode of the competitive product, where the first correspondence is a correspondence between a to-be-selected light throw coefficient of the target product and the waybill number, and the second correspondence is a correspondence between a to-be-selected light throw coefficient of the target product and the waybill income;

and a light throwing coefficient selecting module 45, configured to determine a target light throwing coefficient of the target product from light throwing coefficients to be selected of the target product according to a logistics product target of the target product, the first corresponding relationship and the second corresponding relationship, where the logistics product target includes a preset waybill quantity and a preset waybill income.

In some embodiments of the present invention, the waybill parameter obtaining module 43 includes:

the acquisition module is used for acquiring the waybill data of the first type of waybill and the waybill data of the second type of waybill;

the processing module is used for carrying out privacy removal processing on the waybill data of the first type of waybill and the waybill data of the second type of waybill;

and the extraction module is used for carrying out data extraction on the waybill data subjected to privacy removal processing to obtain waybill parameters of the first class of waybill and waybill parameters of the second class of waybill.

In some embodiments of the invention, the soft polishing factor selection module 45 comprises:

the first construction module is used for selecting a light throwing coefficient from light throwing coefficients to be selected according to the preset waybill number and the first corresponding relation to construct a first set;

the second construction module is used for selecting the light throwing coefficients from the light throwing coefficients to be selected according to the preset waybill income and the second corresponding relation to construct a second set;

and the target selection module is used for determining the target light polishing coefficient of the object product according to the same light polishing coefficients in the first set and the second set.

In some embodiments of the present invention, the soft polishing coefficient selection module 45 further comprises:

The quantity obtaining module is used for obtaining the quantity of the same light throwing coefficients;

the relation calling module is used for acquiring a third corresponding relation of the object product if the number of the same light throwing coefficients is more than one, wherein the third corresponding relation is the corresponding relation between the light throwing coefficient to be selected of the object product and the average value of the charging quality;

at this time, the target selection module is configured to select a light polishing coefficient from the same light polishing coefficients according to the third corresponding relationship, and determine the light polishing coefficient as a target light polishing coefficient of the target product;

the target selection module is further configured to determine the same light polishing coefficient as a target light polishing coefficient of the target product if the number of the same light polishing coefficients is one.

In some embodiments of the present invention, correspondence determining module 44 includes:

a fourth corresponding relation determining module, configured to determine a fourth corresponding relation according to the waybill parameter of the first type waybill, the charging mode of the object product, and the light throw coefficient to be selected, where the fourth corresponding relation is a corresponding relation between the charging price of the first type waybill and the light throw coefficient to be selected;

a fifth corresponding relation determining module, configured to determine a fifth corresponding relation according to the waybill parameter of the second type waybill, the charging mode of the object product, and the light throw coefficient to be selected, where the fifth corresponding relation is a corresponding relation between the charging price of the second type waybill and the light throw coefficient to be selected;

A sixth corresponding relation determining module, configured to determine a sixth corresponding relation according to the waybill parameter of the first type waybill, and the light throw coefficient and the charging manner of the competitive product, where the sixth corresponding relation is a corresponding relation between the charging price of the first type waybill and the light throw coefficient of the competitive product;

a seventh corresponding relation determining module, configured to obtain a seventh corresponding relation, where the seventh corresponding relation is a corresponding relation between the charging price of the second type of waybill and the light throw coefficient of the competitive product;

and the target corresponding relation determining module is used for re-dividing the first class of waybills and the second class of waybills according to the fourth corresponding relation, the fifth corresponding relation, the sixth corresponding relation, the seventh corresponding relation and a product selection condition to obtain the first corresponding relation and the second corresponding relation.

In some embodiments of the present invention, the fourth correspondence determining module is specifically configured to: determining an eighth corresponding relation according to the waybill parameters of the first type waybill and the light throw coefficient to be selected, wherein the eighth corresponding relation is the corresponding relation between the charging quality of the first type waybill and the light throw coefficient to be selected; and obtaining the fourth corresponding relation according to the charging mode of the object product and the eighth corresponding relation.

In some embodiments of the present invention, the fifth correspondence determining module is specifically configured to: determining a ninth corresponding relation according to the waybill parameters of the second type waybill and the light throw coefficient to be selected, wherein the ninth corresponding relation is the corresponding relation between the charging quality of the second type waybill and the light throw coefficient to be selected; and obtaining the fifth corresponding relation according to the charging mode of the object product and the ninth corresponding relation.

In some embodiments of the present invention, the sixth correspondence determining module is specifically configured to: determining a tenth corresponding relation according to the waybill parameters of the first type waybill and the light throwing coefficient of the competitive product, wherein the tenth corresponding relation is the corresponding relation between the charging quality of the first type waybill and the light throwing coefficient of the competitive product; and determining the sixth corresponding relation according to the charging mode of the competitive products and the tenth corresponding relation.

In some embodiments of the invention, the product selection condition comprises selecting a product for which the billing price is low; the target correspondence determination module includes:

the first division module is used for re-dividing the first class waybill according to the fourth corresponding relation, the sixth corresponding relation and the product selection condition to obtain the attribution relation between the to-be-selected light throwing coefficient of the object product and the first class waybill;

The second division module is used for re-dividing the second class waybill according to the fifth corresponding relation, the seventh corresponding relation and the product selection condition to obtain the attribution relation between the to-be-selected light throwing coefficient of the object product and the second class waybill;

and the statistical module is used for obtaining the first corresponding relation and the second corresponding relation according to the attribution relation between the to-be-selected light throwing coefficient of the target product and the first class of waybills and the attribution relation between the to-be-selected light throwing coefficient and the second class of waybills.

The embodiment provides a logistics product light throwing coefficient management device, which first obtains a first corresponding relation between a to-be-selected light throwing coefficient and the number of freight notes and a second corresponding relation between the to-be-selected light throwing coefficient and freight note income of an object product within a preset time, and then selects a target light throwing coefficient for the object product according to a logistics product target, the first corresponding relation and the second corresponding relation which are required to be reached by the object product when the light throwing coefficient is required to be selected for the logistics product. In the embodiment, the logistics provider is not required to select the light polishing coefficient for the logistics product according to experience, so that the technical problem that the logistics provider needs to select the light polishing coefficient for the logistics product according to experience in the prior art is solved, and the problem that the influence of the light polishing coefficient on the logistics product cannot be expected is solved.

Accordingly, an embodiment of the present invention further provides a server, as shown in fig. 5, the server includes a Radio Frequency (RF) circuit 501, a memory 502 including one or more computer-readable storage media, an input unit 503, a display unit 504, a sensor 505, an audio circuit 506, a Wireless Fidelity (WiFi) module 507, a processor 508 including one or more processing cores, and a power supply 509. Wherein:

the RF circuit 501 may be used for receiving and transmitting signals during information transmission and reception or during a call, and in particular, for receiving downlink information of a base station and then sending the received downlink information to the one or more processors 508 for processing; in addition, data relating to uplink is transmitted to the base station. The memory 502 may be used to store software programs and modules, and the processor 508 executes various functional applications and data processing by operating the software programs and modules stored in the memory 502. The input unit 503 may be used to receive input numeric or character information and generate keyboard, mouse, joystick, optical or trackball signal inputs related to user settings and function control. The display unit 504 may be used to display information input by or provided to the user and various graphic user interfaces of the logistics transportation device, which may be configured by graphics, text, icons, video, and any combination thereof. The server may also include at least one sensor 505, such as light sensors, motion sensors, and other sensors. The audio circuit 506 includes speakers, microphones, etc., and may provide an audio interface between the user and the logistics transport. The processor 508 is a control center of the server, connects various parts of the entire handset using various interfaces and lines, performs various functions and processes data by operating or executing software programs and/or modules stored in the memory 502, and calling data stored in the memory 502.

The server also includes a power supply 509 (such as a battery) to power the various components.

Specifically, in this embodiment, the processor 508 in the server loads the executable file corresponding to the process of one or more application programs into the memory 502 according to the following instructions, and the processor 508 runs the application programs stored in the memory 502, thereby implementing various functions:

acquiring a light throwing coefficient to be selected and a charging mode of an object product, wherein the light throwing coefficient is used for determining the volume and the mass of the waybill article according to the volume of the waybill article;

obtaining competitive products corresponding to the object products, and the light throwing coefficient and the charging mode of the competitive products;

acquiring the waybill parameters of the first type of waybill and the waybill parameters of the second type of waybill;

obtaining a first corresponding relation and a second corresponding relation of the object product according to the charging mode of the object product, the waybill parameters of the first type waybill, the waybill parameters of the second type waybill, and the light throwing coefficient and the charging mode of the competitive product;

and determining the target light polishing coefficient of the object product from the light polishing coefficients to be selected of the object product according to the logistics product target, the first corresponding relation and the second corresponding relation of the object product.

In some embodiments of the invention, the method is further used to implement:

acquiring waybill data of the first type of waybill and waybill data of the second type of waybill;

carrying out privacy removal treatment on the waybill data of the first class waybill and the waybill data of the second class waybill;

and performing data extraction on the waybill data subjected to privacy removal processing to obtain waybill parameters of the first type of waybill and waybill parameters of the second type of waybill.

In some embodiments of the invention, the method is further used to implement:

selecting a light throwing coefficient from the light throwing coefficients to be selected according to the preset waybill number and the first corresponding relation to construct a first set;

selecting a light throwing coefficient from the light throwing coefficients to be selected according to the preset waybill income and the second corresponding relation to construct a second set;

and determining a target light polishing coefficient of the object product according to the same light polishing coefficients in the first set and the second set.

In some embodiments of the invention, the method is further used to implement:

acquiring the number of the same light polishing coefficients;

if the number of the same light polishing coefficients is more than one, acquiring a third corresponding relation of the object product;

According to the third corresponding relation, selecting a light polishing coefficient from the same light polishing coefficients, and determining the light polishing coefficient as a target light polishing coefficient of the object product;

and if the number of the same light polishing coefficients is one, determining the same light polishing coefficients as the target light polishing coefficients of the target product.

In some embodiments of the invention, the method is further used to implement:

determining a fourth corresponding relation according to the waybill parameters of the first class waybill, the charging mode of the object product and the coefficient of to-be-selected light throw;

determining a fifth corresponding relation according to the waybill parameters of the second type waybill, the charging mode of the object product and the light throw coefficient to be selected;

determining a sixth corresponding relation according to the waybill parameters of the first type of waybill, the light throwing coefficient and the charging mode of the competitive products;

acquiring a seventh corresponding relation;

and re-dividing the first class of waybills and the second class of waybills according to the fourth corresponding relationship, the fifth corresponding relationship, the sixth corresponding relationship, the seventh corresponding relationship and a product selection condition to obtain the first corresponding relationship and the second corresponding relationship.

In some embodiments of the invention, the method is further used to implement:

Determining an eighth corresponding relation according to the waybill parameters of the first class waybill and the coefficient of the light throw to be selected; and obtaining the fourth corresponding relation according to the charging mode of the object product and the eighth corresponding relation.

In some embodiments of the invention, the method is further used to implement:

determining a ninth corresponding relation according to the waybill parameters of the second type waybill and the coefficient of the light throw to be selected; and obtaining the fifth corresponding relation according to the charging mode of the object product and the ninth corresponding relation.

In some embodiments of the invention, the method is further used to implement:

determining a tenth corresponding relation according to the waybill parameters of the first type waybill and the light throw coefficient of the competitive product; and determining the sixth corresponding relation according to the charging mode of the competitive products and the tenth corresponding relation.

In some embodiments of the invention, the product selection condition comprises selecting a product for which the billing price is low; and is also used to implement:

re-dividing the first class waybill according to the fourth corresponding relation, the sixth corresponding relation and the product selection condition to obtain the attribution relation between the to-be-selected light throw coefficient of the object product and the first class waybill;

Re-dividing the second class waybill according to the fifth corresponding relation, the seventh corresponding relation and the product selection condition to obtain an attribution relation between the to-be-selected light throw coefficient of the target product and the second class waybill;

and obtaining the first corresponding relation and the second corresponding relation according to the attribution relation between the to-be-selected light throwing coefficient and the first type of waybills and the attribution relation between the to-be-selected light throwing coefficient and the second type of waybills within the preset time length of the object product.

To this end, the present invention provides a storage medium, in which a plurality of instructions are stored, and the instructions can be loaded by a processor to execute the steps in any one of the resource management methods provided by the embodiments of the present invention. For example, the instructions may perform the steps of:

acquiring a light throwing coefficient to be selected and a charging mode of an object product, wherein the light throwing coefficient is used for determining the volume and the mass of the waybill article according to the volume of the waybill article;

obtaining competitive products corresponding to the object products, and the light throwing coefficient and the charging mode of the competitive products;

acquiring the waybill parameters of the first type of waybill and the waybill parameters of the second type of waybill;

Obtaining a first corresponding relation and a second corresponding relation of the object product according to the charging mode of the object product, the waybill parameters of the first type waybill, the waybill parameters of the second type waybill, and the light throwing coefficient and the charging mode of the competitive product;

and determining the target light polishing coefficient of the object product from the light polishing coefficients to be selected of the object product according to the logistics product target, the first corresponding relation and the second corresponding relation of the object product.

In some embodiments of the invention, the method is further configured to perform the steps of:

acquiring waybill data of the first type of waybill and waybill data of the second type of waybill;

carrying out privacy removal treatment on the waybill data of the first class waybill and the waybill data of the second class waybill;

and performing data extraction on the waybill data subjected to privacy removal processing to obtain waybill parameters of the first type of waybill and waybill parameters of the second type of waybill.

In some embodiments of the invention, the method is further configured to perform the steps of:

selecting a light throwing coefficient from the light throwing coefficients to be selected according to the preset waybill number and the first corresponding relation to construct a first set;

Selecting a light throwing coefficient from the light throwing coefficients to be selected according to the preset waybill income and the second corresponding relation to construct a second set;

and determining a target light polishing coefficient of the object product according to the same light polishing coefficients in the first set and the second set.

In some embodiments of the invention, the method is further configured to perform the steps of:

acquiring the number of the same light polishing coefficients;

if the number of the same light polishing coefficients is more than one, acquiring a third corresponding relation of the object product;

according to the third corresponding relation, selecting a light polishing coefficient from the same light polishing coefficients, and determining the light polishing coefficient as a target light polishing coefficient of the object product;

and if the number of the same light polishing coefficients is one, determining the same light polishing coefficients as the target light polishing coefficients of the target product.

In some embodiments of the invention, the method is further configured to perform the steps of:

determining a fourth corresponding relation according to the waybill parameters of the first class waybill, the charging mode of the object product and the coefficient of to-be-selected light throw;

determining a fifth corresponding relation according to the waybill parameters of the second type waybill, the charging mode of the object product and the light throw coefficient to be selected;

Determining a sixth corresponding relation according to the waybill parameters of the first type of waybill, the light throwing coefficient and the charging mode of the competitive products;

acquiring a seventh corresponding relation;

and re-dividing the first class of waybills and the second class of waybills according to the fourth corresponding relationship, the fifth corresponding relationship, the sixth corresponding relationship, the seventh corresponding relationship and a product selection condition to obtain the first corresponding relationship and the second corresponding relationship.

In some embodiments of the invention, the method is further configured to perform the steps of:

determining an eighth corresponding relation according to the waybill parameters of the first class waybill and the coefficient of the light throw to be selected; and obtaining the fourth corresponding relation according to the charging mode of the object product and the eighth corresponding relation.

In some embodiments of the invention, the method is further configured to perform the steps of:

determining a ninth corresponding relation according to the waybill parameters of the second type waybill and the coefficient of the light throw to be selected; and obtaining the fifth corresponding relation according to the charging mode of the object product and the ninth corresponding relation.

In some embodiments of the invention, the method is further configured to perform the steps of:

determining a tenth corresponding relation according to the waybill parameters of the first type waybill and the light throw coefficient of the competitive product; and determining the sixth corresponding relation according to the charging mode of the competitive products and the tenth corresponding relation.

The product selection condition comprises selecting a product with a low charging price; in some embodiments of the invention, the method is further configured to perform the steps of:

re-dividing the first class waybill according to the fourth corresponding relation, the sixth corresponding relation and the product selection condition to obtain the attribution relation between the to-be-selected light throw coefficient of the object product and the first class waybill;

re-dividing the second class waybill according to the fifth corresponding relation, the seventh corresponding relation and the product selection condition to obtain an attribution relation between the to-be-selected light throw coefficient of the target product and the second class waybill;

and obtaining the first corresponding relation and the second corresponding relation according to the attribution relation between the to-be-selected light throwing coefficient and the first type of waybills and the attribution relation between the to-be-selected light throwing coefficient and the second type of waybills within the preset time length of the object product.

The above operations can be implemented in the foregoing embodiments, and are not described in detail herein.

Wherein the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

The method and the device for managing the coefficient of light throw of the logistics product, the server and the storage medium provided by the embodiment of the invention are introduced in detail, a specific example is applied in the text to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for those skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (11)

1. A logistics product light polishing coefficient management method is characterized by comprising the following steps:

acquiring a light throwing coefficient to be selected and a charging mode of an object product, wherein the light throwing coefficient is used for determining the volume and the mass of the waybill article according to the volume of the waybill article;

obtaining competitive products corresponding to the object products, and the light throwing coefficient and the charging mode of the competitive products;

acquiring waybill parameters of a first class of waybill and waybill parameters of a second class of waybill, wherein the waybill parameters comprise actual quality and volume of the waybill, the first class of waybill is the waybill actually attributed to the object product, and the second class of waybill is the waybill actually attributed to the competitive product;

obtaining a first corresponding relation and a second corresponding relation of the object product according to the charging mode of the object product, the waybill parameters of the first type waybill, the waybill parameters of the second type waybill, and the light throw coefficient and the charging mode of the competitive product, wherein the first corresponding relation is the corresponding relation between the light throw coefficient to be selected of the object product and the number of the waybill, and the second corresponding relation is the corresponding relation between the light throw coefficient to be selected of the object product and the income of the waybill;

And determining a target light throwing coefficient of the object product from the light throwing coefficients to be selected of the object product according to the logistics product target, the first corresponding relation and the second corresponding relation of the object product, wherein the logistics product target comprises a preset freight bill number and a preset freight bill income.

2. The method for managing the coefficient of lightly throwing of logistic products according to claim 1, wherein the step of obtaining the waybill parameters of the first type waybill and the waybill parameters of the second type waybill comprises:

acquiring waybill data of the first type of waybill and waybill data of the second type of waybill;

carrying out privacy removal treatment on the waybill data of the first class waybill and the waybill data of the second class waybill;

and performing data extraction on the waybill data subjected to privacy removal processing to obtain waybill parameters of the first type of waybill and waybill parameters of the second type of waybill.

3. The method for managing the logistic product slight polishing coefficient according to claim 1, wherein the step of determining the target slight polishing coefficient of the target product from the slight polishing coefficients to be selected of the target product according to the logistic product target, the first corresponding relationship and the second corresponding relationship of the target product comprises:

Selecting a light throwing coefficient from the light throwing coefficients to be selected according to the preset waybill number and the first corresponding relation to construct a first set;

selecting a light throwing coefficient from the light throwing coefficients to be selected according to the preset waybill income and the second corresponding relation to construct a second set;

and determining a target light polishing coefficient of the object product according to the same light polishing coefficients in the first set and the second set.

4. The method for managing coefficients of lightly polishing logistics product according to claim 3, wherein the step of determining the target coefficients of lightly polishing the object product according to the same coefficients of lightly polishing in the first set and the second set comprises:

acquiring the number of the same light polishing coefficients;

if the number of the same light polishing coefficients is one, determining the same light polishing coefficients as target light polishing coefficients of the target product;

if the number of the same light throwing coefficients is more than one, acquiring a third corresponding relation of the object product, wherein the third corresponding relation is the corresponding relation between the light throwing coefficients to be selected of the object product and the average value of the charging quality;

and selecting a light polishing coefficient from the same light polishing coefficients according to the third corresponding relation, and determining the light polishing coefficient as a target light polishing coefficient of the target product.

5. The method for managing the coefficient of lightly throwing logistics products according to any one of claims 1 to 4, wherein the step of obtaining the first corresponding relationship and the second corresponding relationship of the object product according to the charging mode of the object product, the waybill parameter of the first type of waybill, the waybill parameter of the second type of waybill, and the coefficient of lightly throwing and charging mode of the competitive product comprises:

determining a fourth corresponding relation according to the waybill parameters of the first type waybill, the charging mode of the object product and the light throw coefficient to be selected, wherein the fourth corresponding relation is the corresponding relation between the charging price of the first type waybill and the light throw coefficient to be selected;

determining a fifth corresponding relation according to the waybill parameters of the second type waybill, the charging mode of the object product and the light throw coefficient to be selected, wherein the fifth corresponding relation is the corresponding relation between the charging price of the second type waybill and the light throw coefficient to be selected;

determining a sixth corresponding relation according to the waybill parameters of the first type of waybill, the light throw coefficient and the charging mode of the competitive products, wherein the sixth corresponding relation is the corresponding relation between the charging price of the first type of waybill and the light throw coefficient of the competitive products;

Acquiring a seventh corresponding relation, wherein the seventh corresponding relation is the corresponding relation between the charging price of the second type of waybill and the light throw coefficient of the competitive product;

and re-dividing the first class of waybills and the second class of waybills according to the fourth corresponding relationship, the fifth corresponding relationship, the sixth corresponding relationship, the seventh corresponding relationship and a product selection condition to obtain the first corresponding relationship and the second corresponding relationship.

6. The logistic product light polishing coefficient management method according to claim 5, characterized in that:

the step of determining a fourth corresponding relation according to the waybill parameters of the first type waybill, the charging mode of the object product and the coefficient of to-be-selected light throw comprises the following steps: determining an eighth corresponding relation according to the waybill parameters of the first type waybill and the light throw coefficient to be selected, wherein the eighth corresponding relation is the corresponding relation between the charging quality of the first type waybill and the light throw coefficient to be selected; obtaining the fourth corresponding relation according to the charging mode of the object product and the eighth corresponding relation;

the step of determining a fifth corresponding relationship according to the waybill parameter of the second type waybill, the charging mode of the object product and the coefficient of to-be-selected light throw comprises the following steps: determining a ninth corresponding relation according to the waybill parameters of the second type waybill and the light throw coefficient to be selected, wherein the ninth corresponding relation is the corresponding relation between the charging quality of the second type waybill and the light throw coefficient to be selected; obtaining the fifth corresponding relation according to the charging mode of the object product and the ninth corresponding relation;

The step of determining a sixth corresponding relation according to the waybill parameters of the first type of waybill, the light throwing coefficient of the competitive product and the charging mode comprises the following steps: determining a tenth corresponding relation according to the waybill parameters of the first type waybill and the light throwing coefficient of the competitive product, wherein the tenth corresponding relation is the corresponding relation between the charging quality of the first type waybill and the light throwing coefficient of the competitive product; and determining the sixth corresponding relation according to the charging mode of the competitive products and the tenth corresponding relation.

7. The method for managing the coefficient of lightly throwing of logistic product according to claim 5, wherein the product selection condition includes selecting a product with a low billing price; the step of re-dividing the first type of waybills and the second type of waybills according to the fourth corresponding relationship, the fifth corresponding relationship, the sixth corresponding relationship, the seventh corresponding relationship and the product selection condition to obtain the first corresponding relationship and the second corresponding relationship includes:

re-dividing the first class waybill according to the fourth corresponding relation, the sixth corresponding relation and the product selection condition to obtain the attribution relation between the to-be-selected light throw coefficient of the object product and the first class waybill;

Re-dividing the second class waybill according to the fifth corresponding relation, the seventh corresponding relation and the product selection condition to obtain an attribution relation between the to-be-selected light throw coefficient of the target product and the second class waybill;

and obtaining the first corresponding relation and the second corresponding relation according to the attribution relation between the to-be-selected light throwing coefficient of the object product and the first type of waybills and the attribution relation between the to-be-selected light throwing coefficient and the second type of waybills.

8. The logistics product light polishing coefficient management device is characterized by comprising the following components:

the object product parameter acquisition module is used for acquiring a light throwing coefficient to be selected and a charging mode of an object product, wherein the light throwing coefficient is used for determining the volume and the mass of the waybill article according to the volume of the waybill article;

a competitive product parameter obtaining module, configured to obtain a competitive product corresponding to the target product, and a light cast coefficient and a charging mode of the competitive product;

the waybill parameter acquisition module is used for acquiring waybill parameters of a first class of waybill and waybill parameters of a second class of waybill, wherein the waybill parameters comprise the actual quality and volume of the waybill, the first class of waybill is the waybill actually attributed to the object product, and the second class of waybill is the waybill actually attributed to the competitive product;

A corresponding relation determining module, configured to obtain a first corresponding relation and a second corresponding relation of the object product according to the charging mode of the object product, the waybill parameter of the first type waybill, the waybill parameter of the second type waybill, and the light throw coefficient and the charging mode of the competitive product, where the first corresponding relation is a corresponding relation between a light throw coefficient to be selected of the object product and the waybill quantity, and the second corresponding relation is a corresponding relation between a light throw coefficient to be selected of the object product and the waybill income;

and the light throwing coefficient selection module is used for determining a target light throwing coefficient of the object product from the light throwing coefficients to be selected of the object product according to the logistics product target, the first corresponding relation and the second corresponding relation of the object product, wherein the logistics product target comprises the preset freight bill quantity and the preset freight bill income.

9. The logistics product coefficient of light throwing management device of claim 8, wherein the coefficient of light throwing selection module comprises:

the first construction module is used for selecting a light throwing coefficient from light throwing coefficients to be selected according to the preset waybill number and the first corresponding relation to construct a first set;

The second construction module is used for selecting the light throwing coefficients from the light throwing coefficients to be selected according to the preset waybill income and the second corresponding relation to construct a second set;

and the target selection module is used for determining the target light polishing coefficient of the object product according to the same light polishing coefficients in the first set and the second set.

10. The logistics product coefficient of slight polishing management device of claim 8 or 9, wherein the correspondence determining module comprises:

a fourth corresponding relation determining module, configured to determine a fourth corresponding relation according to the waybill parameter of the first type waybill, the charging mode of the object product, and the light throw coefficient to be selected, where the fourth corresponding relation is a corresponding relation between the charging price of the first type waybill and the light throw coefficient to be selected;

a fifth corresponding relation determining module, configured to determine a fifth corresponding relation according to the waybill parameter of the second type waybill, the charging mode of the object product, and the light throw coefficient to be selected, where the fifth corresponding relation is a corresponding relation between the charging price of the second type waybill and the light throw coefficient to be selected;

a sixth corresponding relation determining module, configured to determine a sixth corresponding relation according to the waybill parameter of the first type waybill, and the light throw coefficient and the charging manner of the competitive product, where the sixth corresponding relation is a corresponding relation between the charging price of the first type waybill and the light throw coefficient of the competitive product;

A seventh corresponding relation determining module, configured to obtain a seventh corresponding relation, where the seventh corresponding relation is a corresponding relation between the charging price of the second type of waybill and the light throw coefficient of the competitive product;

and the target corresponding relation determining module is used for re-dividing the first class of waybills and the second class of waybills according to the fourth corresponding relation, the fifth corresponding relation, the sixth corresponding relation, the seventh corresponding relation and a product selection condition to obtain the first corresponding relation and the second corresponding relation.

11. A storage medium storing a plurality of instructions, the instructions being adapted to be loaded by a processor to perform the steps of the method for coefficient management of physical distribution product recited in any one of claims 1 to 7.

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