CN111950953A - Electronic commerce distribution system based on quantity division and working method thereof - Google Patents

Abstract

The invention relates to an electronic commerce distribution system based on quantity division and a working method thereof, wherein the electronic commerce distribution system comprises the following steps: the coordinate drawing module is used for drawing a two-dimensional plane coordinate system on the urban electronic map; the distribution information module is used for acquiring order distribution information; the address acquisition module is used for searching address information of package distribution; a small region dividing module for dividing small regions; the address judgment module is used for judging the small region to which the address judgment module belongs; the counting module counts the orders in the same small area judged by the address judging module; the screening module screens small areas with more order counts, sets the small areas as primary areas, and sets the rest of the small areas which are not screened as secondary areas; the main area connecting module is used for connecting the main areas screened by the screening module and generating a predicted distribution route; the secondary region attribution module plans a secondary region to a predicted distribution route and generates a final distribution route; and the parcel batching module is used for batching the distributed parcels to a single distribution process.

Description

Electronic commerce distribution system based on quantity division and working method thereof

Technical Field

The invention relates to the field of electronic commerce, in particular to an electronic commerce distribution system based on quantity division and a working method thereof.

Background

Electronic commerce is a business activity centered on commodity exchange by means of information network technology, and generally refers to a novel business operation mode in which a buyer and a seller perform various business activities invisibly in the wide business activities all over the world and under the open internet based on a server application mode, so that online shopping of consumers, online transactions and online electronic payment among merchants, various business activities, transaction activities, financial activities and related comprehensive service activities are realized. At present, for the distribution of electronic commerce goods, the goods are often distributed through the sites of various cities, the range in charge of the sites is often a fixed range, and couriers distribute the goods arbitrarily within the distribution range, which results in the waste of time and resources, so a distribution route planning system capable of solving the above problems is urgently needed.

Disclosure of Invention

The purpose of the invention is as follows:

in order to solve the problem of providing a distribution route planning system capable of solving the above problems, the present invention provides an electronic commerce distribution system based on quantity division and a working method thereof.

The technical scheme is as follows:

an electronic commerce distribution system based on quantity division, which is used for dividing distribution areas according to distribution quantity, comprising:

the coordinate drawing module is used for drawing a two-dimensional plane coordinate system on the urban electronic map;

the distribution information module is used for acquiring order distribution information;

the address acquisition module is used for searching address information of package delivery in the delivery information module;

the small area dividing module is used for dividing small areas on the two-dimensional plane coordinates drawn by the coordinate drawing module;

the address judgment module is used for judging the small region to which the address information acquired by the address acquisition module belongs;

the counting module is used for counting the orders in the same small area judged by the address judgment module;

the screening module is used for screening small areas with more order counts according to the order counts of the counting module in each small area, setting the small areas as main areas, and setting the rest small areas which are not screened as secondary areas;

the main area connecting module is used for connecting the main areas screened by the screening module and generating a predicted distribution route;

the secondary region attribution module is used for planning the secondary region to a predicted distribution route and generating a final distribution route;

and the parcel batching module is used for batching the dispatched parcels to a single dispatching process.

In a preferred embodiment of the present invention, the delivery information module, the small area division module, and the main area connection module operate in a delivery area covered by one delivery site.

As a preferable mode of the present invention, for the main area connection module, in connecting each of the predicted delivery routes, the start of the predicted delivery route is connected to the delivery site.

As a preferable mode of the present invention, a distance threshold is set for the secondary region attribution module, the secondary region attribution module calculates a distance between a connection line between the secondary region and the primary region, and screens the secondary regions whose distance between the secondary region and the connection line between the primary regions is smaller than the distance threshold, and attributing the secondary regions to the predicted distribution routes where the connection lines of the corresponding primary regions are located.

As a preferred mode of the present invention, the parcel batching module divides the goods according to each goods that can be loaded by the courier in a single pass, and after the delivery of parcels in one main area and the subsequent secondary areas is completed, the main area connecting module rejects the delivered main area, and replans the final delivery route.

As a preferred mode of the present invention, the screening module sets a quantity threshold, and when the screening module determines that the order count in a small area is greater than the quantity threshold, the screening module determines that the small area is a main area.

A working method of an electronic commerce distribution system based on quantity division comprises the following steps:

s01: the coordinate drawing module draws a two-dimensional plane coordinate system;

s02: the distribution information module acquires order distribution information;

s03: the address acquisition module acquires package distribution address information;

s04: the address judging module judges the small area of the package according to the package distribution address information;

s05: the counting module counts the times of the parcel delivery address information appearing in each cell;

s06: the screening module determines a primary region and a secondary region;

s07: the main area connecting module is sequentially connected with the main area and connected with the distribution station, and the connection result is recorded as a predicted distribution route;

s08: the secondary area attribution module calculates the distances from all secondary areas to all predicted distribution routes;

s09: the secondary area attribution module attributing the secondary area to the corresponding predicted delivery route when the distance from the secondary area to the predicted delivery route is less than the distance threshold and generating a final delivery route.

As a preferred embodiment of the present invention, the method further comprises the steps of:

a01: the parcel batching module selects a main area which is nearest to a delivery site on a final delivery route and a plurality of secondary areas corresponding to the main area;

a02: the counting module counts the order quantity of the primary area and the secondary area selected by the parcel batching module;

a03: the parcel batching module performs parcel batching according to a single-pass upper delivery limit;

a04: when the selected primary area and the secondary area are completely conveyed, the primary area connecting module rejects the conveyed primary area and the conveyed secondary area;

a05: the main area connect module reconnects the delivery stations into the main area wiring and generates a revised final delivery route, and returns to a 01.

The invention realizes the following beneficial effects:

the main distribution areas and the secondary distribution areas are classified according to the number and are connected, so that the main distribution areas with a large number of packages can be distributed in a short time, the secondary distribution areas are distributed on the way in the distribution process of the main distribution areas, couriers can distribute in the most efficient distribution route, and time waste is reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a system framework diagram of the present invention;

FIG. 2 is a diagram of the main steps of the present invention;

FIG. 3 is a diagram illustrating the steps of the present invention;

FIG. 4 is a diagram of a delivery route layout 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.

The first embodiment is as follows:

the reference figures are figures 1-4. An electronic commerce distribution system based on quantity division, which is used for dividing distribution areas according to distribution quantity, comprising:

the coordinate drawing module 1 is used for drawing a two-dimensional plane coordinate system on the urban electronic map;

the distribution information module 2 is used for acquiring order distribution information;

the address acquisition module 3 is used for searching the address information of package delivery in the delivery information module 2;

a small region dividing module 4, configured to divide a small region on the two-dimensional plane coordinate drawn by the coordinate drawing module 1;

an address determination module 5, configured to determine a small area to which the address information acquired by the address acquisition module 3 belongs;

a counting module 6, configured to count orders in the same small area determined by the address determining module 5;

the screening module 7 is used for screening small areas with more order counts according to the order counts of the counting module 6 in each small area, setting the small areas as main areas, and setting the rest small areas which are not screened as secondary areas;

a main area connecting module 8, configured to connect the main areas screened by the screening module 7, and generate a predicted distribution route;

a secondary area attribution module 9, configured to plan a secondary area to a predicted delivery route, and generate a final delivery route;

a parcel batching module 10 for batching the delivered parcels into a single delivery process.

In a preferred embodiment of the present invention, the delivery information module 2, the small area division module 4, and the main area connection module 8 operate in a delivery area covered by one delivery site.

As a preferable mode of the present invention, for the main area connection module 8, in connecting each of the predicted delivery routes, the start of the predicted delivery route is connected to the delivery site.

As a preferred aspect of the present invention, a distance threshold is set for the secondary area attribution module 9, the secondary area attribution module 9 calculates a distance between a connection line between the secondary area and the primary area, screens the secondary areas whose distance between the secondary area and the connection line between the primary areas is smaller than the distance threshold, and attributing the secondary areas to the predicted distribution routes where the corresponding connection lines of the primary areas are located.

As a preferred mode of the present invention, the parcel batching module 10 divides the goods according to each goods that can be loaded by the courier in a single pass, and after the delivery of parcels in one main area and the subsequent secondary areas is completed, the main area connecting module 8 rejects the delivered main area and replans the final delivery route.

As a preferred aspect of the present invention, the screening module 7 sets a quantity threshold, and when the screening module 7 determines that the order count in a small area is greater than the quantity threshold, it determines that the small area is a main area.

A working method of an electronic commerce distribution system based on quantity division comprises the following steps:

s01: the coordinate drawing module 1 draws a two-dimensional plane coordinate system;

s02: the distribution information module 2 acquires order distribution information;

s03: the address acquisition module 3 acquires package distribution address information;

s04: the address judging module judges the small area of the package according to the package distribution address information;

s05: the counting module 6 counts the times of the package distribution address information appearing in each cell;

s06: the screening module 7 determines a primary region and a secondary region;

s07: the main area connecting module 8 is sequentially connected with the main area and connected with the distribution station, and the connection result is recorded as a predicted distribution route;

s08: the secondary area attribution module 9 calculates the distances from all secondary areas to all expected distribution routes;

s09: the secondary area attribution module 9 attributing the secondary area to the corresponding predicted delivery route when the distance to the predicted delivery route is less than the distance threshold and generates the final delivery route.

As a preferred embodiment of the present invention, the method further comprises the steps of:

a01: the parcel batching module 10 selects a primary area on the final delivery route that is nearest to the delivery site and a number of secondary areas corresponding to the primary area;

a02: the counting module 6 counts the number of orders in the primary area and the secondary area selected by the parcel batching module 10;

a03: the parcel batching module 10 batches parcels according to a single-pass upper delivery limit;

a04: when the selected primary area and secondary area are delivered, the primary area connecting module 8 rejects the delivered primary area and secondary area;

a05: the main area connection module 8 reconnects the delivery stations into the main area wiring and generates a corrected final delivery route, and returns to a 01.

In the specific implementation process, the coordinate drawing module 1 acquires an electronic map of a city from the internet, draws a two-dimensional plane coordinate system on the electronic map, marks the positions of distribution sites in the city in the two-dimensional plane coordinate system, and divides corresponding areas of each distribution site in the two-dimensional plane coordinate system according to the actual division conditions to serve as the working areas of each distribution site. Wherein the small area comprises a living cell, an industrial factory area and the like.

The system comprises a coordinate drawing module 1, a distribution information module 2, an address acquisition module 3, a parcel distribution address information, an address judgment module, a counting module 6, a screening module 7, a main area connection module 8, a distribution station and a secondary area, wherein the coordinate drawing module 1 draws a two-dimensional plane coordinate system, the distribution information module 2 acquires order distribution information, the address acquisition module 3 acquires parcel distribution address information, the address judgment module judges small areas of parcels according to the parcel distribution address information, the counting module 6 counts the times of the parcel distribution address information appearing in each small area, the screening module 7 judges the main area and the secondary area, the main area connection module 8 is sequentially connected with the main area and connected with the distribution station, the connection result is recorded as a predicted distribution route, the secondary area attribution module 9 calculates the distances from all the secondary areas to all the predicted.

For each delivery station, replanning a new rectangular coordinate system by taking each delivery station as a circular point, wherein for each new rectangular coordinate system, the total number of the four quadrants is four, each quadrant is divided into two areas again by an angular bisector of a quadrant angle, namely an upper half quadrant and a lower half quadrant of each quadrant, a corresponding delivery address is arranged in each half quadrant, for each half quadrant, the distance from the main area contained in each quadrant to an origin, namely the delivery station is calculated, the distances from each main area to the origin are sequenced, so that each main area is connected in sequence, and the main area closest to the delivery station is connected to the delivery station, so that a predicted delivery route is generated in each half quadrant; and then, calculating the distance between the connection line between the secondary area and the main area, comparing the distance threshold value, judging that the distance between the connection line between the secondary area and the main area is smaller than the distance threshold value, and attributing the secondary area to the predicted distribution route according to the shortest distance. It should be noted that, for the connection of the primary areas, assuming that the connection of the primary areas is a-B-C, the connection between a and B is calculated as the range of the primary area a, so that when the shortest distance from the secondary area to the expected distribution route is acted on the connection between a and B, the secondary areas are classified into the range of the primary area a, and the distribution addresses in the secondary areas are used as the supplementary addresses of the distribution addresses of the primary area a in the subsequent distribution process.

In the delivery, since there is a space limit in a vehicle delivered by a courier, goods in the primary area and the subsidiary secondary area are classified according to the space limit, and the following delivery modes are provided as examples: the goods in the main area can be subjected to batch distinguishing and preferential distribution, and then the goods obtained in the subsidiary area are subjected to batch distinguishing and distribution; it is also possible to deliver the goods in several secondary areas separately, i.e. each secondary area is delivered separately, a portion of the goods in the primary area is added when there is room in the delivery vehicle, etc.

After the delivery of the goods to one of the primary area and the subsidiary area is completed, the primary area and the subsidiary area, for example, the primary area a, may be excluded, the primary area B may be connected to the delivery site, and the subsidiary area may be newly divided for further delivery.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (8)

1. An electronic commerce distribution system based on quantity division, which is used for dividing distribution areas according to distribution quantity, and is characterized by comprising:

the coordinate drawing module is used for drawing a two-dimensional plane coordinate system on the urban electronic map;

the distribution information module is used for acquiring order distribution information;

the address acquisition module is used for searching address information of package delivery in the delivery information module;

the small area dividing module is used for dividing small areas on the two-dimensional plane coordinates drawn by the coordinate drawing module;

the address judgment module is used for judging the small region to which the address information acquired by the address acquisition module belongs;

the counting module is used for counting the orders in the same small area judged by the address judgment module;

the screening module is used for screening small areas with more order counts according to the order counts of the counting module in each small area, setting the small areas as main areas, and setting the rest small areas which are not screened as secondary areas;

the main area connecting module is used for connecting the main areas screened by the screening module and generating a predicted distribution route;

the secondary region attribution module is used for planning the secondary region to a predicted distribution route and generating a final distribution route;

and the parcel batching module is used for batching the dispatched parcels to a single dispatching process.

2. The system of claim 1, wherein the system further comprises: the distribution information module, the small area division module and the main area connection module act on a distribution range covered by one distribution station.

3. The system of claim 2, wherein the system further comprises: for the main area connection module, in connecting each of the predicted delivery routes, the start of the predicted delivery route is connected to the delivery site.

4. The system of claim 3, wherein the system further comprises: and the secondary region attribution module is provided with a distance threshold value, calculates the distance of a connecting line between the secondary region and the main region, screens the secondary regions of which the distance from the connecting line between the secondary region and the main region is less than the distance threshold value, and attributing the secondary regions to the predicted distribution routes in which the connecting lines of the corresponding main regions are positioned.

5. The system of claim 4, wherein the electronic commerce distribution system based on quantity division comprises: the parcel batching module divides goods according to goods which can be loaded by each single pass by a courier, and after the delivery of parcels in a main area and subsequent secondary areas is finished, the main area connecting module rejects the delivered main area and replans a final delivery route.

6. The system of claim 5, wherein the electronic commerce distribution system based on quantity division comprises: the screening module sets a quantity threshold value, and when the screening module judges that the order count in a small area is greater than the quantity threshold value, the small area is judged to be a main area.

7. A method of operating a quantity division-based electronic commerce distribution system, which employs a quantity division-based electronic commerce distribution system as claimed in claim 6, wherein: the method comprises the following steps:

s01: the coordinate drawing module draws a two-dimensional plane coordinate system;

s02: the distribution information module acquires order distribution information;

s03: the address acquisition module acquires package distribution address information;

s04: the address judging module judges the small area of the package according to the package distribution address information;

s05: the counting module counts the times of the parcel delivery address information appearing in each cell;

s06: the screening module determines a primary region and a secondary region;

s07: the main area connecting module is sequentially connected with the main area and connected with the distribution station, and the connection result is recorded as a predicted distribution route;

s08: the secondary area attribution module calculates the distances from all secondary areas to all predicted distribution routes;

s09: the secondary area attribution module attributing the secondary area to the corresponding predicted delivery route when the distance from the secondary area to the predicted delivery route is less than the distance threshold and generating a final delivery route.

8. The method as claimed in claim 7, wherein the method comprises the steps of: further comprising the steps of:

a01: the parcel batching module selects a main area which is nearest to a delivery site on a final delivery route and a plurality of secondary areas corresponding to the main area;

a02: the counting module counts the order quantity of the primary area and the secondary area selected by the parcel batching module;

a03: the parcel batching module performs parcel batching according to a single-pass upper delivery limit;

a04: when the selected primary area and the secondary area are completely conveyed, the primary area connecting module rejects the conveyed primary area and the conveyed secondary area;

a05: the main area connect module reconnects the delivery stations into the main area wiring and generates a revised final delivery route, and returns to a 01.

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