CN112418754A

CN112418754A - Logistics management order allocation calculation method

Info

Publication number: CN112418754A
Application number: CN202011256950.2A
Authority: CN
Inventors: 王逸
Original assignee: Suzhou Dianji Iot Technology Co ltd
Current assignee: Suzhou Dianji Iot Technology Co ltd
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-02-26

Abstract

The invention discloses a logistics management order allocation calculation method, which comprises the following steps: step 100: the end user sends the order data to the order server through the terminal app step 200: the order server judges the type of the order, if the order is a preset order, the order is added into an order pool in step 310, and if the order is an instant order, the step 320 is carried out; step 310: the task server scans the orders in the order pool according to the preset frequency, and if the orders which accord with the order dispatching time are found, the orders are pushed to the step 320; step 320: pushing the order to an order dispatching system; step 400: and the order dispatching system screens and allocates the attribution area through the receiving address of the order. After the invention is adopted: the cost is reduced, and the number of related workers is reduced; the utilization rate of the logistics vehicles is improved, and the vehicle configuration is reduced; the error cost caused by human error is reduced; the efficiency is improved, and the traditional manual dispatching is replaced by an intelligent calculation method.

Description

Logistics management order allocation calculation method

Technical Field

The invention relates to the field of logistics management, in particular to a logistics management order allocation calculation method.

Background

With the progress of the times, the mode of purchasing articles is changed from the traditional off-line shopping mode to the on-line shopping mode, and the mode can greatly improve the working efficiency and save the time cost. But logistics about orders becomes the biggest factor affecting efficiency. Human intervention results in more uncertainty and instability, so relatively intelligent computational methods are needed to solve and reduce the occurrence of problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing a logistics management order distribution calculation method, which adopts an intelligent calculation mode to reasonably and intelligently distribute orders, improves the accuracy of order distribution and improves the load utilization rate of logistics vehicles.

In order to solve the above technical problem, the present invention provides 1 a method for calculating distribution of logistics management orders, comprising:

step 100: the terminal user terminal app sends the order data to an order server;

step 200: the order server judges the type of the order, if the order is a preset order, the order is added into an order pool in step 310, and if the order is an instant order, the step 320 is carried out;

step 310: the task server scans the orders in the order pool according to the preset frequency, and if the orders which accord with the order dispatching time are found, the orders are pushed to the step 320;

step 320: pushing the order to an order dispatching system;

step 400: the order sending system screens and distributes an attribution area through a receiving address of the order;

step 500: and screening the logistics transport vehicles meeting the requirements by distributing the transport modes according to the types of the commodities.

In one embodiment, the "step 100: the terminal user terminal app sends the order data to an order server; ", specifically includes: the user downloads the terminal APP, the personal data is perfected in the APP, the user selects commodities needing to be purchased in the terminal APP to add into the shopping cart, the delivery time and the receiving address are selected on a final settlement interface, and the order information is pushed to the ordering system after the data are confirmed to be correct.

In one embodiment, the order information includes: buyer name, buyer telephone, receiving address, seller number, seller name, seller telephone, commodity number, commodity name, commodity unit price, payment mode information and delivery time; the personal profile includes: name, contact phone, and shipping address list.

In one embodiment, the order system records the order information to MySql after receiving the request of the user; in the database, finishing the storage of the order information; after the order system finishes storing the order information, a payment order is created and returned to the terminal APP, and the integrity of order data is kept before payment is finished; after the terminal APP receives payment order information returned by the order system, a payment entrance is established for payment; and after the payment is finished, the terminal APP transmits the order information to the order system.

In one embodiment, the "step 400: the order sending system screens and distributes an attribution area through a receiving address of the order; ", specifically includes: the dispatching system presets the position GPS of the center of each responsible area and sets the radius of the range responsible by each area; the order dispatching system receives the orders pushed by the task system and the order system and carries out primary screening and distribution on the receiving addresses of the orders; and calculating the distance according to the longitude and latitude of the order receiving address and the longitude and latitude of the central positions of all the responsible areas, calculating to obtain the responsible area with the closest distance between the two responsible areas, and distributing the order to the area.

In one embodiment, "step 500: screening logistics transportation vehicles meeting the requirements by distributing transportation modes according to the types of commodities; the method specifically comprises the following steps:

step 1100: according to different commodity types in the order, classifying commodities, specifically freezing transportation A, aquatic transportation B and general transportation C;

step 1200: if the A-type commodities exist, screening out all vehicle information Car1 and vehicle information Car2 which meet the transportation conditions of the A-type commodities in the distribution area, and if the A-type commodities do not exist, going to step 1700;

step 1300: judging whether the loadable weight of Car 1-the loaded weight of the vehicle is greater than the total weight of the class A commodity, and if the loadable weight of Car 1-the loaded weight of the vehicle is greater than the total weight of the class A commodity, assigning the class A commodity to Car 1; if the condition is not satisfied, executing step 1400;

step 1400: judging whether the loadable weight of Car 2-the loaded weight of the vehicle is greater than the total weight of the class A commodity, and if the loadable weight of Car 2-the loaded weight of the vehicle is greater than the total weight of the class A commodity, assigning the class A commodity to Car 2; if the condition is not satisfied, executing step 1500;

step 1500: if all vehicles do not meet the distribution conditions of the A-type commodity grouping, the dispatching system will send the order; notifying an administrator;

step 1600: after receiving the system notification, the administrator can manually add delivery vehicles for the area temporarily and notify the delivery system to redistribute the retained orders;

step 1700: if the B-type commodities exist, screening out all vehicle information Car3 and vehicle information Car4 which meet the transportation condition of the B-type commodities in the distribution area, and if the B-type commodities do not exist, going to step 2200;

step 1800: judging whether the loadable weight of Car 3-the loaded weight of the vehicle is greater than the total weight of the group B commodities, and if the loadable weight of Car 3-the loaded weight of the vehicle is greater than the total weight of the group B commodities, allocating the group B commodities to Car 3; if the condition is not satisfied, execute step 1900;

step 1900: judging whether the loadable weight of Car 4-the loaded weight of the vehicle is greater than the total weight of the group B commodities, and if the loadable weight of Car 4-the loaded weight of the vehicle is greater than the total weight of the group B commodities, allocating the group B commodities to Car 4; if the condition is not satisfied, executing step 2000;

step 2000: all vehicles do not meet the distribution condition of the B-type commodity grouping, and the dispatching system informs the administrator;

step 2100: after receiving the system notification, the administrator can manually add delivery vehicles for the area temporarily and notify the delivery system to redistribute the retained orders;

step 2200: if the C-type commodities exist, screening out all vehicle information Car5 and vehicle information Car6 which meet the C-type commodity transportation condition in the distribution area;

step 2300: judging whether the loadable weight of Car 5-the loaded weight of the vehicle is greater than the total weight of the C-class commodities, and if the loadable weight of Car 5-the loaded weight of the vehicle is greater than the total weight of the C-class commodities, allocating the C-class commodities to Car 5; if the condition is not met, executing step 2400;

step 2400: judging whether the loadable weight of Car 6-the loaded weight of the vehicle is greater than the total weight of the C-class commodities, and if the loadable weight of Car 4-the loaded weight of the vehicle is greater than the total weight of the C-class commodities, allocating the C-class commodities to Car 6; if the condition is not satisfied, executing step 2500;

step 2500: all vehicles do not meet the distribution condition of the B-type commodity grouping, and the dispatching system informs a manager;

step 2600: after receiving the system notification, the administrator may manually add delivery vehicles temporarily to the area, notifying the dispatch system to redistribute the stranded orders.

In one embodiment, after the order is distributed, the system informs the merchant of stock through APP or short message; the system will inform the logistics vehicle driver that the cargo is ready to be loaded.

Based on the same inventive concept, the present application also provides a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of any of the methods when executing the program.

Based on the same inventive concept, the present application also provides a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of any of the methods.

Based on the same inventive concept, the present application further provides a processor for executing a program, wherein the program executes to perform any one of the methods.

The invention has the beneficial effects that:

because the actual business requirements are different, the ordering requirements of the users are divided into advance reservation and instant ordering. Due to different requirements, corresponding staff need to be equipped for business processing on the management level, logistics distribution vehicles and vehicle drivers need to be increased, management complexity and operation cost are increased virtually, and the possibility of errors caused by human factors in the operation process is greatly improved. After the invention is adopted: the cost is reduced, and the number of related workers is reduced; the utilization rate of the logistics vehicles is improved, and the vehicle configuration is reduced; the error cost caused by human error is reduced; the efficiency is improved, and the traditional manual dispatching is replaced by an intelligent calculation method; data tracing, and progress information of any order can be tracked in real time through intelligent calculation and distribution.

Drawings

Fig. 1 is a flow chart illustrating a logistics management order allocation calculation method according to the present invention.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

As shown in fig. 1, the intelligent order allocation calculation method for logistics management of the present invention includes the following steps:

step 100: a user downloads a terminal APP, and personal data such as names, contact calls and a receiving address list are perfected in the APP;

step 200: a user selects commodities needing to be purchased in a terminal APP to be added into a shopping cart, a delivery time and a delivery address are selected in a final settlement interface, after data are confirmed to be correct, order information (comprising a buyer name, a buyer telephone, a delivery address, a seller number, a seller telephone, a commodity number, a commodity name, a commodity unit price, payment mode information, a delivery time and a type: order creation) is pushed to an ordering system through a TCP/IP (Transmission Control Protocol/Internet Protocol) Protocol (the TCP/IP Protocol is the most basic communication Protocol in the use of a network).

Step 300: the order system receives the user's request (create order request) and records the order information into MySql (MySql is a relational database management system that stores the data in different tables instead of putting all the data in one large repository, which increases speed and improves flexibility.

Step 400: and after the order system finishes storing the order information, a payment order is created and returned to the terminal APP through a TCP/IP protocol, and the integrity of order data is kept before payment is finished.

Step 500: and after the terminal APP receives the payment order information returned by the order system, a payment entrance is created, and the customer pays through payment modes such as payment treasure and WeChat. And after the payment is finished, the terminal APP transmits the order information (order number, order state: payment finished) to the order system through the TCP/IP protocol.

Step 600: the order system receives information (order payment completion) pushed by the terminal APP, analyzes details of the order, performs business processing according to attributes (instant order and preset order) of the order, pushes the instant order to the order dispatching system, and adds the preset order into an order pool of the order system.

Step 700: the method comprises the steps of creating a task in a JOB (task) system, setting task execution frequency (scanning once every N seconds, scanning once every N minutes and scanning once every N hours), scanning orders in an order pool, and pushing the orders to a dispatching system if orders which are in line with the dispatching are found. And if the order information is not met, ending the current scanning and waiting for the next scanning.

Step 800: the dispatch system presets a position GPS (short for Global Positioning System (GPS) coordinates, generally consisting of two parameters, longitude and latitude, also called longitude and latitude) of the center of each responsible area, and sets a radius of a range in which each area is responsible.

Step 900: and the order dispatching system receives the orders pushed by the JOB system and the order system and performs one-time screening and distribution on the receiving addresses of the orders.

Step 1000: and calculating the distance according to the longitude and latitude of the order receiving address and the longitude and latitude of the central positions of all the responsible areas, calculating to obtain the responsible area with the closest distance between the two responsible areas, and distributing the order to the area.

Step 1100: the commodities are classified according to the types of the commodities in the order (A refrigeration transportation, B aquatic transportation and C general transportation).

Step 1200: if the A-type commodities exist, all vehicle information Car1 and vehicle information Car2 (driver name, contact number, license plate number, vehicle loadable weight, vehicle loaded weight, vehicle type, brand and transportation type A) which meet the transportation condition of the A-type commodities in the distribution area are screened out, and if the A-type commodities do not exist, the step 1700 is executed.

Step 1300: it is determined whether or not Car1 is loadable weight-vehicle loaded weight greater than the total weight of the category a commodity, and if Car1 is loadable weight-vehicle loaded weight greater than the total weight of the category a commodity, the category a commodity is assigned to Car 1. If the condition is not satisfied, step 1400 is performed.

Step 1400: it is determined whether or not Car2 is loadable weight-vehicle loaded weight greater than the total weight of the category a commodity, and if Car2 is loadable weight-vehicle loaded weight greater than the total weight of the category a commodity, the category a commodity is assigned to Car 2. If the condition is not satisfied, step 1500 is performed.

Step 1500: all vehicles do not meet the distribution conditions of the A-type commodity grouping, and the dispatching system informs the administrator through modes of APP, short messages and the like.

Step 1600: after receiving the system notification, the administrator may manually add delivery vehicles temporarily to the area, notifying the dispatch system to redistribute the stranded orders, step 900.

Step 1700: if the type B commodities exist, all vehicle information Car3 and vehicle information Car4 (driver name, contact number, license plate number, vehicle loadable weight, vehicle loaded weight, vehicle type, brand and transportation type B) which meet the transportation condition of the type B commodities in the distribution area are screened out, and if the type B commodities do not exist, the step 2200 is executed.

Step 1800: it is judged whether or not Car3 loadable weight-vehicle loaded weight is greater than the total weight of the category B commodity, and if Car3 loadable weight-vehicle loaded weight is greater than the total weight of the category B commodity, the category B commodity is assigned to Car 3. If the condition is not satisfied, step 1900 is performed.

Step 1900: it is judged whether or not Car4 loadable weight-vehicle loaded weight is greater than the total weight of the category B commodity, and if Car4 loadable weight-vehicle loaded weight is greater than the total weight of the category B commodity, the category B commodity is assigned to Car 4. If the condition is not satisfied, step 2000 is performed.

Step 2000: all vehicles do not meet the distribution condition of the B-type commodity grouping, and the dispatching system informs the administrator through modes of APP, short messages and the like.

Step 2100: after receiving the system notification, the administrator may manually add delivery vehicles temporarily to the area, notifying the dispatch system to redistribute the stranded orders, step 900.

Step 2200: if the C-type commodities exist, screening out all vehicle information Car5 and vehicle information Car6 (driver name, contact number, license plate number, vehicle loadable weight, vehicle loaded weight, vehicle type, brand and transportation type B) which are in the distribution area and meet the transportation condition of the C-type commodities, and if the C-type commodities do not exist, going to step 2700.

Step 2300: it is determined whether or not Car5 is loadable weight-vehicle loaded weight greater than total weight of category C commodities, and if Car5 is loadable weight-vehicle loaded weight greater than total weight of category C commodities, category C commodities are assigned to Car 5. If the condition is not satisfied, step 2400 is executed.

Step 2400: it is determined whether or not Car6 is loadable weight-vehicle loaded weight greater than total weight of category C commodities, and if Car4 is loadable weight-vehicle loaded weight greater than total weight of category C commodities, category C commodities are assigned to Car 6. If the condition is not satisfied, step 2500 is performed.

Step 2500: all vehicles do not meet the distribution condition of the B-type commodity grouping, and the dispatching system informs the administrator through modes of APP, short messages and the like.

Step 2600: after receiving the system notification, the administrator may manually add delivery vehicles temporarily to the area, notifying the dispatch system to redistribute the stranded orders, step 900.

Step 2700: after the order is distributed, the system informs the merchant of stock through APP or short message (the purpose of informing through two ways is to prevent the processing schedule from being untimely due to communication obstacle).

Step 2800: after the order is allocated, the system will inform the driver of the logistics vehicle of the readiness for loading.

After each step is executed, the information and the time are recorded in the MySql server, all the information is finally gathered, all the abnormal information data are intelligently classified, and the information data serve as important basis for improvement of a subsequent management scheme.

Namely, through strategy improvement, through the whole-course tracking record of data, the links with problems are analyzed after the arrangement and the summary, and a better improvement strategy is made.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims

1. A logistics management order allocation calculation method is characterized by comprising the following steps:

step 320: pushing the order to an order dispatching system;

2. The logistics management order allocation calculation method of claim 1, wherein the "step 100: the terminal user terminal app sends the order data to an order server; ", specifically includes: the user downloads the terminal APP, the personal data is perfected in the APP, the user selects commodities needing to be purchased in the terminal APP to add into the shopping cart, the delivery time and the receiving address are selected on a final settlement interface, and the order information is pushed to the ordering system after the data are confirmed to be correct.

3. The logistics management order allocation calculation method of claim 1, wherein the order information comprises: buyer name, buyer telephone, receiving address, seller number, seller name, seller telephone, commodity number, commodity name, commodity unit price, payment mode information and delivery time; the personal profile includes: name, contact phone, and shipping address list.

4. The logistics management order allocation calculation method of claim 1, wherein the order system records the order information to MySql after receiving the request of the user; in the database, finishing the storage of the order information; after the order system finishes storing the order information, a payment order is created and returned to the terminal APP, and the integrity of order data is kept before payment is finished; after the terminal APP receives payment order information returned by the order system, a payment entrance is established for payment; and after the payment is finished, the terminal APP transmits the order information to the order system.

5. The logistics management order allocation calculation method of claim 1, wherein the "step 400: the order sending system screens and distributes an attribution area through a receiving address of the order; ", specifically includes: the dispatching system presets the position GPS of the center of each responsible area and sets the radius of the range responsible by each area; the order dispatching system receives the orders pushed by the task system and the order system and carries out primary screening and distribution on the receiving addresses of the orders; and calculating the distance according to the longitude and latitude of the order receiving address and the longitude and latitude of the central positions of all the responsible areas, calculating to obtain the responsible area with the closest distance between the two responsible areas, and distributing the order to the area.

6. The logistics management order allocation calculation method of claim 1, wherein the step 500: screening logistics transportation vehicles meeting the requirements by distributing transportation modes according to the types of commodities; the method specifically comprises the following steps:

7. The logistics management order allocation calculation method of claim 1, wherein after the order allocation is completed, the system notifies the merchant to stock through APP or short message; the system will inform the logistics vehicle driver that the cargo is ready to be loaded.

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

9. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.

10. A processor, characterized in that the processor is configured to run a program, wherein the program when running performs the method of any of claims 1 to 7.