CN116228078A - Logistics distribution vehicle dispatching method and system - Google Patents

Abstract

The invention relates to the technical field of logistics management and discloses a logistics distribution vehicle dispatching method and system, wherein the logistics distribution vehicle dispatching method comprises a logistics task acquisition module, a logistics state updating module, a distribution analysis module and a distribution dispatching planning module; through the setting of relevant module and function, realized the dispatch vehicle dispatch simulation and the production based on logistics distribution demand to can provide more efficient reasonable delivery scheme for the delivery personnel, be different from the mode of the regional delivery of distribution personnel autonomous analysis in prior art, the simulation analysis based on delivery object distribution can just realize holistic delivery planning in preassembly car in-process in this application, and combine the common reference of multiple influencing factors such as road conditions, thereby obtain efficient delivery scheduling scheme.

Description

Logistics distribution vehicle dispatching method and system

Technical Field

The invention relates to the technical field of logistics management, in particular to a logistics distribution vehicle dispatching method and system.

Background

Based on the rapid development of electronic commerce, in the logistics distribution field, the requirement on distribution efficiency is very important, higher distribution efficiency means faster logistics processing speed, more guarantees and supports can be provided for order delivery of electronic commerce, the delivery efficiency is improved, meanwhile, the delivery accuracy of delivery and user handing-over is very important, the delivery of important goods can be effectively guaranteed to people, and the occurrence probability of logistics disputes can be effectively reduced through on-the-surface handing-over.

In the prior art, because of the unpredictability of logistics distribution and the irreplaceability of distribution purposes, the user and the distributor are difficult to effectively finish the handover, and uncertainty staggering is easy to occur in time and space, so that on-the-surface goods inspection becomes difficult.

Disclosure of Invention

The invention aims to provide a logistics distribution vehicle dispatching method and system, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a logistics distribution vehicle dispatch system comprising:

the logistics task acquisition module is used for acquiring a logistics distribution list corresponding to a logistics vehicle through the logistics distribution system, acquiring a logistics distribution object and a corresponding logistics information number based on the logistics distribution list, wherein the logistics distribution object is information of a receiver of a logistics piece corresponding to the logistics information number;

the logistics state updating module is used for pushing the logistics loading state and the logistics distribution state based on a plurality of logistics distribution objects, acquiring the receiving address updating from the logistics distribution objects, and the receiving address updating is used for confirming reserved receiving addresses or replacing and updating the receiving addresses;

the distribution analysis module is used for acquiring a traffic state map of the distribution area, marking the traffic state map based on the goods receiving address after replacement and updating, acquiring a plurality of distributed distribution points, and carrying out gather-scatter analysis on the distribution points based on a preset distribution radiation range to acquire a plurality of gather-scatter centers;

the distribution scheduling planning module is used for acquiring corresponding distribution estimated time based on distribution logistics quantity of the distribution centers, analyzing and judging distribution orders of the distribution centers based on the traffic state map, and further generating distribution routes and logistics loading orders, wherein the traffic state map represents traffic-capable road information in an area and congestion degrees of roads in different time periods. As a further aspect of the invention:

as still further aspects of the invention: the distribution scheduling planning module comprises:

the gathering and scattering center estimating unit is used for judging distribution estimated time length of a plurality of gathering and scattering centers, and calculating distribution time length based on the number of distribution points in a distribution radiation range corresponding to the gathering and scattering centers and distance information between the distribution points and the gathering and scattering centers;

the route list generation unit is used for carrying out route planning based on the traffic state map and generating a plurality of distribution routes sequentially passing through a plurality of gathering and scattering centers;

the distribution judgment and selection unit is used for judging and generating corresponding arrival time periods of different aggregation centers based on distribution routes, crowding degrees of roads of different time periods and distribution estimated time periods of the corresponding aggregation centers, further obtaining the required time for distributing a plurality of logistics pieces in the logistics distribution list, selecting and executing the distribution route with the shortest required time, and correspondingly generating a logistics loading sequence;

the estimated time generation unit is used for generating estimated arrival time periods of different aggregation and dispersion centers based on the distribution route and pushing the estimated arrival time periods to the logistics distribution object terminal to update through the logistics distribution state.

As still further aspects of the invention: the distribution judgment and selection unit further comprises a loading auxiliary generation subunit;

the loading auxiliary sub-unit is used for acquiring the distribution route, arranging a plurality of aggregation and dispersion centers of the distribution route in reverse order, sequentially acquiring logistics numbers corresponding to a plurality of distribution points in a distribution radiation range corresponding to the aggregation and dispersion centers, and establishing a logistics loading sequence based on the reverse order arrangement of the aggregation and dispersion centers.

As still further aspects of the invention: the logistics state updating module comprises an address updating unit, and the address updating unit specifically comprises:

and the request acquisition subunit is used for acquiring the address replacement request from the delivery object and responding to the address replacement request to acquire the replacement address.

The estimated informing subunit is used for acquiring the dispersion center corresponding to the replacement address in the distribution route, acquiring an estimated arrival time period corresponding to the dispersion center, and outputting the estimated arrival time period to a distribution object.

And the confirmation feedback subunit is used for receiving the replacement confirmation information from the user and correspondingly updating the distribution list of the logistics vehicle end.

As still further aspects of the invention: and the replacement address is correspondingly provided with a replacement limiting area, and the replacement limiting area is matched with the distribution radiation area corresponding to the distribution route.

The embodiment of the invention aims to provide a logistics distribution vehicle scheduling method, which comprises the following steps:

a logistics distribution list corresponding to a logistics vehicle is obtained through a logistics distribution system, a logistics distribution object and a corresponding logistics information number are obtained based on the logistics distribution list, and the logistics distribution object is information of a receiver of a logistics piece corresponding to the logistics information number;

pushing the logistics loading state and the logistics distribution state based on a plurality of logistics distribution objects, and acquiring the receiving address update from the logistics distribution objects, wherein the receiving address update is used for confirming reserved receiving addresses or replacing and updating the receiving addresses;

acquiring a traffic state map of a distribution area, marking the traffic state map based on a receiving address after replacement and updating, acquiring a plurality of distributed distribution points, and performing gather-scatter analysis on the distribution points based on a preset distribution radiation range to acquire a plurality of gather-scatter centers;

and acquiring corresponding distribution estimated time based on distribution flow of the distribution centers, analyzing and judging distribution orders of the distribution centers based on a traffic state map, and further generating a distribution route and a logistics loading order, wherein the traffic state map represents traffic road information in an area and congestion degrees of roads in different time periods.

As a further aspect of the invention: the step of analyzing and judging the distribution sequence of the distribution centers based on the traffic state map to generate a distribution route and a logistics loading sequence specifically comprises the following steps of:

judging the estimated distribution time length of the plurality of distributed centers, and calculating the distribution time length based on the number of distribution points in the distribution radiation range corresponding to the distributed centers and the distance information between the distribution points and the distributed centers;

route planning is carried out based on the traffic state map, and a plurality of distribution routes sequentially passing through a plurality of gathering and distributing centers are generated;

judging and generating corresponding arrival time periods of different aggregation centers based on the distribution routes, the crowding degree of the roads of different time periods and the distribution estimated time periods of the corresponding aggregation centers, further obtaining the required time for the distribution of a plurality of logistics pieces in the logistics distribution list, selecting and executing the distribution route with the shortest required time, and correspondingly generating a logistics loading sequence;

and generating estimated arrival time periods of different aggregation and dispersion centers based on the distribution route, and pushing the estimated arrival time periods to a logistics distribution object end to update through a logistics distribution state.

As still further aspects of the invention: the step of correspondingly generating the logistics loading sequence specifically comprises the following steps:

and acquiring the distribution route, arranging a plurality of aggregation and dispersion centers of the distribution route in reverse order, sequentially acquiring the logistics numbers corresponding to a plurality of distribution points in the distribution radiation range corresponding to the aggregation and dispersion centers, and establishing a logistics loading sequence based on the reverse order arrangement of the aggregation and dispersion centers.

As still further aspects of the invention: the step of obtaining the update of the receiving address from the logistics distribution object specifically comprises the following steps:

acquiring an address replacement request from a delivery object and responding to the address replacement request to acquire a replacement address;

acquiring a gathering and scattering center in the distribution route corresponding to the replacement address, acquiring an estimated arrival time period corresponding to the gathering and scattering center, and outputting the estimated arrival time period to a distribution object;

and receiving replacement confirmation information from the user, and correspondingly updating the distribution list of the logistics vehicle end.

As still further aspects of the invention: and the replacement address is correspondingly provided with a replacement limiting area, and the replacement limiting area is matched with the distribution radiation area corresponding to the distribution route.

Compared with the prior art, the invention has the beneficial effects that: through the setting of relevant module and function, realized the dispatch vehicle dispatch simulation and the production based on logistics distribution demand to can provide more efficient reasonable delivery scheme for the delivery personnel, be different from the mode of the regional delivery of distribution personnel autonomous analysis in prior art, the simulation analysis based on delivery object distribution can just realize holistic delivery planning in preassembly car in-process in this application, and combine the common reference of multiple influencing factors such as road conditions, thereby obtain efficient delivery scheduling scheme.

Drawings

FIG. 1 is a block diagram of a logistics distribution vehicle dispatch system.

Fig. 2 is a block diagram of a distribution scheduling module in a logistics distribution vehicle scheduling system.

FIG. 3 is a block diagram of an address update unit in a logistics distribution vehicle dispatch system.

FIG. 4 is a flow chart diagram of a method of logistics distribution vehicle dispatch.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1, a logistics distribution vehicle dispatching system according to an embodiment of the present invention includes:

the logistics task acquiring module 100 is configured to acquire a logistics distribution list corresponding to a logistics vehicle through a logistics distribution system, and acquire a logistics distribution object and a corresponding logistics information number based on the logistics distribution list, where the logistics distribution object is information of a collector of a logistics piece corresponding to the logistics information number.

The logistics state updating module 300 is configured to push the logistics loading state and the logistics distribution state based on the plurality of logistics distribution objects, and obtain a receiving address update from the logistics distribution objects, where the receiving address update is used to confirm a reserved receiving address or perform replacement update of the receiving address.

The distribution analysis module 500 is configured to obtain a traffic state map of a distribution area, mark the traffic state map based on a receiving address after replacement and update, obtain a plurality of distributed distribution points, and perform gather and scatter analysis on the distribution points based on a preset distribution radiation range, so as to obtain a plurality of gather and scatter centers.

The distribution scheduling planning module 700 is configured to obtain corresponding distribution estimated time based on distribution traffic of the aggregation and distribution centers, analyze and judge distribution orders of the aggregation and distribution centers based on a traffic state map, and further generate a distribution route and a logistics loading order, where the traffic state map characterizes traffic-available road information in an area and congestion degrees of roads in different time periods.

In the embodiment, a logistics distribution vehicle dispatching system is provided, and distribution vehicle dispatching simulation and generation based on logistics distribution requirements are realized through the arrangement of related modules and functions, so that a more efficient and reasonable distribution scheme can be provided for distribution staff, and the logistics distribution vehicle dispatching system is different from a mode of autonomously analyzing distribution by the distribution staff in the area in the prior art, and in the method, the overall distribution planning can be realized in the preassembly process based on the simulation analysis of distribution object distribution, and the common reference of various influence factors such as road conditions and the like is combined, so that the efficient distribution dispatching scheme is obtained; when the logistics distribution system is used, logistics distribution is carried out in different areas, a logistics distribution list needing distribution in the corresponding logistics vehicle acquisition area is prepared for loading, at the moment, information pushing is carried out to a distribution object end through a logistics state updating module 300, a receiving address of a user and whether address updating is needed or not are obtained, distribution points based on the distribution addresses are subjected to aggregation and dispersion analysis, a plurality of aggregation and dispersion areas and corresponding aggregation and dispersion centers are divided, so that a plurality of distribution routes which are connected with the plurality of aggregation and dispersion centers in different passing sequences can be established, the time required to be consumed for judging the whole distribution route is carried out based on the time of different distribution routes reaching different positions and the congestion degree of road sections corresponding to the time period, and the screening and the sorting of the distribution routes are carried out.

As shown in fig. 2, as another preferred embodiment of the present invention, the delivery scheduling projection module 700 includes:

the gather-scatter-center estimating unit 701 is configured to determine a distribution estimated time length for a plurality of gather-scatter centers, and calculate a distribution time length based on the number of distribution points in a distribution radiation range corresponding to the gather-scatter centers and distance information between the distribution points and the gather-scatter centers.

The route list generating unit 702 is configured to perform route planning based on the traffic state map, and generate a plurality of distribution routes sequentially passing through a plurality of aggregation centers.

The distribution judgment and selection unit 703 is configured to judge and generate corresponding arrival time periods of different aggregation centers based on the distribution route, the congestion degree of the road at different time periods, and the distribution estimated time periods of the corresponding aggregation centers, so as to obtain the required time for completing the distribution of the several logistics items in the logistics distribution list, select and execute the distribution route with the shortest required time, and correspondingly generate the logistics loading sequence.

The estimated time generating unit 704 is configured to generate estimated arrival time periods of different aggregation and dispersion centers based on the distribution route, and push the estimated arrival time periods to the logistics distribution pair object end for updating through the logistics distribution state.

In this embodiment, the distribution scheduling module 700 is further described herein, that is, the distribution scheduling module mainly includes gather analysis, route list generation, and distribution route final selection based on time and road congestion, where the distribution radiation range is to be described, and it can be understood that the distance between the distribution points and the distribution vehicles is limited during the distribution process; the estimated time generating unit 704 is used for determining the arrival time and the stay time period of the delivery vehicles of different aggregation and dispersion centers after the delivery route is determined, so that the delivery objects can be conveniently determined on the receiving time.

As another preferred embodiment of the present invention, the delivery judgment selecting unit 703 further includes a loading aid generating sub-unit;

the loading auxiliary sub-unit is used for acquiring the distribution route, arranging a plurality of aggregation and dispersion centers of the distribution route in reverse order, sequentially acquiring logistics numbers corresponding to a plurality of distribution points in a distribution radiation range corresponding to the aggregation and dispersion centers, and establishing a logistics loading sequence based on the reverse order arrangement of the aggregation and dispersion centers.

In this embodiment, the auxiliary generating subunit for loading is used for picking up goods and loading before delivery, and loading the delivered goods in reverse order based on the delivery route, so that a complicated searching process can be avoided in the delivery process, especially in the early delivery stage, and the problem that the goods backlog is difficult to search at the bottom in the delivery process can be effectively avoided.

As shown in fig. 3, as another preferred embodiment of the present invention, the physical distribution status updating module 300 includes an address updating unit 310, and the address updating unit 310 specifically includes:

the request acquisition subunit 311 is configured to acquire an address replacement request from the delivery object and obtain a replacement address in response.

The estimated notification subunit 312 is configured to obtain the replacing address corresponding to the aggregation center in the delivery route, obtain an estimated arrival time period corresponding to the aggregation center, and output the estimated arrival time period to the delivery object.

The confirmation feedback subunit 313 is configured to receive the replacement confirmation information from the user, and update the distribution list of the logistics vehicle end correspondingly.

Further, the replacement address is correspondingly provided with a replacement limiting area, and the replacement limiting area is matched with the distribution radiation area corresponding to the distribution route.

In this embodiment, in the operation of the logistic status updating module 300, that is, in the process of loading and delivery, the addressee (delivery object) can change the delivery address, in the process of changing, the delivery object can select different addresses and obtain the estimated delivery time for displaying the preview, so as to select a new delivery address suitable for the user, and it should be noted that the process of selecting the new address is limited, and the user can only select in the radiation range because the delivery of the logistic vehicle is already determined.

As shown in fig. 4, the present invention further provides a method for dispatching logistics distribution vehicles, which includes the steps of:

s200, acquiring a logistics distribution list corresponding to logistics vehicles through a logistics distribution system, and acquiring logistics distribution objects and corresponding logistics information numbers based on the logistics distribution list, wherein the logistics distribution objects are information of receivers of logistics items corresponding to the logistics information numbers.

And S400, pushing the logistics loading state and the logistics distribution state based on the logistics distribution objects, and acquiring the receiving address update from the logistics distribution objects, wherein the receiving address update is used for confirming reserved receiving addresses or replacing and updating the receiving addresses.

S600, acquiring a traffic state map of a distribution area, marking the traffic state map based on a goods receiving address after replacement and updating, acquiring a plurality of distributed distribution points, and performing gather-scatter analysis on the distribution points based on a preset distribution radiation range to acquire a plurality of gather-scatter centers.

S800, acquiring corresponding estimated distribution time based on distribution flow of the aggregation and dispersion center, analyzing and judging distribution sequence of the aggregation and dispersion center based on a traffic state map, and further generating a distribution route and a logistics loading sequence, wherein the traffic state map represents traffic road information in an area and congestion degree of roads in different periods.

As another preferred embodiment of the present invention, the step of obtaining the corresponding estimated distribution duration based on the distribution flow of the distribution centers, analyzing and judging the distribution sequence of the distribution centers based on the traffic state map, and further generating the distribution route and the logistics loading sequence specifically includes:

and judging the estimated distribution time length of the plurality of aggregation centers, and calculating the distribution time length based on the number of distribution points in the distribution radiation range corresponding to the aggregation centers and the distance information between the distribution points and the aggregation centers.

And carrying out route planning based on the traffic state map, and generating a plurality of distribution routes sequentially passing through a plurality of gathering and distributing centers.

And judging and generating corresponding arrival time periods of different aggregation centers based on the distribution routes, the crowding degree of the roads of different time periods and the distribution estimated time periods of the corresponding aggregation centers, further obtaining the required time for the distribution of a plurality of logistics pieces in the logistics distribution list, selecting and executing the distribution route with the shortest required time, and correspondingly generating the logistics loading sequence.

And generating estimated arrival time periods of different aggregation and dispersion centers based on the distribution route, and pushing the estimated arrival time periods to a logistics distribution object end to update through a logistics distribution state.

As another preferred embodiment of the present invention, the steps corresponding to the loading sequence of the generated logistics specifically include:

and acquiring the distribution route, arranging a plurality of aggregation and dispersion centers of the distribution route in reverse order, sequentially acquiring the logistics numbers corresponding to a plurality of distribution points in the distribution radiation range corresponding to the aggregation and dispersion centers, and establishing a logistics loading sequence based on the reverse order arrangement of the aggregation and dispersion centers.

As another preferred embodiment of the present invention, the step of obtaining the update of the receiving address from the logistics distribution object specifically includes:

an address replacement request from the delivery object is acquired and in response, a replacement address is acquired.

Acquiring a gathering and scattering center corresponding to the replacement address in the distribution route, acquiring an estimated arrival time period corresponding to the gathering and scattering center, and outputting the estimated arrival time period to a distribution object.

And receiving replacement confirmation information from the user, and correspondingly updating the distribution list of the logistics vehicle end.

As another preferred embodiment of the present invention, the replacement address is correspondingly provided with a replacement limit area, and the replacement limit area is matched with the distribution radiation area corresponding to the distribution route.

Those skilled in the art will appreciate that all or part of the processes in the methods of the above embodiments may be implemented by a computer program for instructing relevant hardware, where the program may be stored in a non-volatile computer readable storage medium, and where the program, when executed, may include processes in the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

Other embodiments of the present disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It is to be understood that the present disclosure is not limited to the precise arrangements and instrumentalities shown in the drawings, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A logistics distribution vehicle dispatch system comprising:

the logistics task acquisition module is used for acquiring a logistics distribution list corresponding to a logistics vehicle through the logistics distribution system, acquiring a logistics distribution object and a corresponding logistics information number based on the logistics distribution list, wherein the logistics distribution object is information of a receiver of a logistics piece corresponding to the logistics information number;

the logistics state updating module is used for pushing the logistics loading state and the logistics distribution state based on a plurality of logistics distribution objects, acquiring the receiving address updating from the logistics distribution objects, and the receiving address updating is used for confirming reserved receiving addresses or replacing and updating the receiving addresses;

the distribution analysis module is used for acquiring a traffic state map of the distribution area, marking the traffic state map based on the goods receiving address after replacement and updating, acquiring a plurality of distributed distribution points, and carrying out gather-scatter analysis on the distribution points based on a preset distribution radiation range to acquire a plurality of gather-scatter centers;

the distribution scheduling planning module is used for acquiring corresponding distribution estimated time based on distribution logistics quantity of the distribution centers, analyzing and judging distribution orders of the distribution centers based on the traffic state map, and further generating distribution routes and logistics loading orders, wherein the traffic state map represents traffic-capable road information in an area and congestion degrees of roads in different time periods.

2. The logistics distribution vehicle dispatch system of claim 1, wherein said distribution dispatch planning module comprises:

the gathering and scattering center estimating unit is used for judging distribution estimated time length of a plurality of gathering and scattering centers, and calculating distribution time length based on the number of distribution points in a distribution radiation range corresponding to the gathering and scattering centers and distance information between the distribution points and the gathering and scattering centers;

the route list generation unit is used for carrying out route planning based on the traffic state map and generating a plurality of distribution routes sequentially passing through a plurality of gathering and scattering centers;

the distribution judgment and selection unit is used for judging and generating corresponding arrival time periods of different aggregation centers based on distribution routes, crowding degrees of roads of different time periods and distribution estimated time periods of the corresponding aggregation centers, further obtaining the required time for distributing a plurality of logistics pieces in the logistics distribution list, selecting and executing the distribution route with the shortest required time, and correspondingly generating a logistics loading sequence;

the estimated time generation unit is used for generating estimated arrival time periods of different aggregation and dispersion centers based on the distribution route and pushing the estimated arrival time periods to the logistics distribution object terminal to update through the logistics distribution state.

3. The logistics distribution vehicle scheduling system of claim 2, wherein said distribution judgment selection unit further comprises a loading aid generation subunit;

the loading auxiliary sub-unit is used for acquiring the distribution route, arranging a plurality of aggregation and dispersion centers of the distribution route in reverse order, sequentially acquiring logistics numbers corresponding to a plurality of distribution points in a distribution radiation range corresponding to the aggregation and dispersion centers, and establishing a logistics loading sequence based on the reverse order arrangement of the aggregation and dispersion centers.

4. A logistics distribution vehicle dispatch system according to claim 3, wherein the logistics state update module comprises an address update unit comprising in particular:

a request acquisition subunit, configured to acquire an address replacement request from the delivery object and respond to the address replacement request, and acquire a replacement address;

the estimated informing subunit is used for acquiring the dispersion center corresponding to the replacement address in the distribution route, acquiring an estimated arrival time period corresponding to the dispersion center and outputting the estimated arrival time period to a distribution object;

and the confirmation feedback subunit is used for receiving the replacement confirmation information from the user and correspondingly updating the distribution list of the logistics vehicle end.

5. The logistics distribution vehicle scheduling system of claim 4, wherein said alternate address is correspondingly provided with an alternate restricted area, said alternate restricted area matching with a distribution radiation area corresponding to said distribution route.

6. A method for scheduling a logistics distribution vehicle, comprising:

a logistics distribution list corresponding to a logistics vehicle is obtained through a logistics distribution system, a logistics distribution object and a corresponding logistics information number are obtained based on the logistics distribution list, and the logistics distribution object is information of a receiver of a logistics piece corresponding to the logistics information number;

pushing the logistics loading state and the logistics distribution state based on a plurality of logistics distribution objects, and acquiring the receiving address update from the logistics distribution objects, wherein the receiving address update is used for confirming reserved receiving addresses or replacing and updating the receiving addresses;

acquiring a traffic state map of a distribution area, marking the traffic state map based on a receiving address after replacement and updating, acquiring a plurality of distributed distribution points, and performing gather-scatter analysis on the distribution points based on a preset distribution radiation range to acquire a plurality of gather-scatter centers;

and acquiring corresponding distribution estimated time based on distribution flow of the distribution centers, analyzing and judging distribution orders of the distribution centers based on a traffic state map, and further generating a distribution route and a logistics loading order, wherein the traffic state map represents traffic road information in an area and congestion degrees of roads in different time periods.

7. The method for dispatching logistics distribution vehicles according to claim 6, wherein the step of analyzing and judging the distribution sequence of the plurality of distribution centers based on the traffic state map to generate the distribution route and the logistics loading sequence specifically comprises the steps of:

judging the estimated distribution time length of the plurality of distributed centers, and calculating the distribution time length based on the number of distribution points in the distribution radiation range corresponding to the distributed centers and the distance information between the distribution points and the distributed centers;

route planning is carried out based on the traffic state map, and a plurality of distribution routes sequentially passing through a plurality of gathering and distributing centers are generated;

judging and generating corresponding arrival time periods of different aggregation centers based on the distribution routes, the crowding degree of the roads of different time periods and the distribution estimated time periods of the corresponding aggregation centers, further obtaining the required time for the distribution of a plurality of logistics pieces in the logistics distribution list, selecting and executing the distribution route with the shortest required time, and correspondingly generating a logistics loading sequence;

and generating estimated arrival time periods of different aggregation and dispersion centers based on the distribution route, and pushing the estimated arrival time periods to a logistics distribution object end to update through a logistics distribution state.

8. The method for dispatching a logistics distribution vehicle of claim 7, wherein the step of generating a logistics distribution vehicle loading sequence comprises:

and acquiring the distribution route, arranging a plurality of aggregation and dispersion centers of the distribution route in reverse order, sequentially acquiring the logistics numbers corresponding to a plurality of distribution points in the distribution radiation range corresponding to the aggregation and dispersion centers, and establishing a logistics loading sequence based on the reverse order arrangement of the aggregation and dispersion centers.

9. The method for dispatching a logistics distribution vehicle of claim 8, wherein the step of obtaining a shipping address update from the logistics distribution subject comprises:

acquiring an address replacement request from a delivery object and responding to the address replacement request to acquire a replacement address;

acquiring a gathering and scattering center in the distribution route corresponding to the replacement address, acquiring an estimated arrival time period corresponding to the gathering and scattering center, and outputting the estimated arrival time period to a distribution object;

and receiving replacement confirmation information from the user, and correspondingly updating the distribution list of the logistics vehicle end.

10. The logistics distribution vehicle scheduling method of claim 9, wherein the replacement address is correspondingly provided with a replacement limit area, and the replacement limit area is matched with the distribution radiation area corresponding to the distribution route.

Images