CN116029704B - Method, system and medium for recycling recyclable articles - Google Patents

Abstract

The application discloses a recycling method, a recycling system and a recycling medium for recyclable articles. The recovery method comprises the steps of obtaining recovery order information, extracting a first address from the recovery order information and matching the first address with a second address in an address library; if the matching is successful, distributing the recovery order information to the corresponding service station according to the association radiation relation stored in the address library; if the matching is unsuccessful, determining a matching area of the first address according to the boundary of each electronic fence; if the matching area is the inside of the target electronic fence, determining that the corresponding service station is a first target service station, and distributing the recovery order information to the first target service station; and if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recovery order information to the second target service station. The precise planning of the guaranteed address is realized, the reasonable dispatch of the junction area between the electronic fences is guaranteed, and the comprehensive radiation coverage is realized.

Description

Method, system and medium for recycling recyclable articles

Technical Field

The application relates to the technical field of internet, in particular to a recycling method, a recycling system and a recycling medium for recyclable articles.

Background

With the increasing development of internet technology, the internet and thinking are widely applied to various industries, and the traditional recycling industry also opens a new mode of internet and online recycling under the influence of the internet thinking. Based on the new mode, the user can place an order on the Internet, and the recycling personnel can get on the gate for recycling according to the specific address.

However, because the user address is not planned and managed, the support degree for the custom address is limited, the service range coverage area is narrow, and the electronic fence is directly used as the dispatch range for division, so that the problem that the interface of the electronic fence cannot be covered exists.

In view of the above problems, an effective technical solution is currently needed.

Disclosure of Invention

The utility model provides a recoverable article's recovery method, system and medium, through establishing the virtual district that supports standard address and custom address simultaneously, ensure the accurate planning of address, simultaneously through the distance effect of the recovery order that is located the handing-over district between the electronic fence, confirm the service station that the recovery order corresponds, ensure the reasonable dispatch list in handing-over district between the electronic fence, realize comprehensive radiation coverage.

In a first aspect, the present application provides a method of recycling a recyclable item, the method comprising:

Acquiring recovery order information, and extracting a first address from the recovery order information;

matching the first address with a second address in an address library, wherein the second address comprises a standard address and a custom address;

if the first address is successfully matched with the second address, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library so as to enable service personnel in the service station to recover the corresponding recoverable article;

if the matching of the first address and the second address is unsuccessful, the method specifically further includes:

determining a matching area of the first address according to the boundary of each electronic fence;

if the matching area is the inside of a target electronic fence in the electronic fences, determining a service station corresponding to the target electronic fence as a first target service station, and distributing the recovery order information to the first target service station so as to enable service personnel in the first target service station to recover corresponding recoverable articles;

and if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recycling order information to the second target service station so as to enable service personnel in the second target service station to recycle the corresponding recyclable articles.

Optionally, before the acquiring the recovery order information and extracting the first address from the recovery order information, the method further includes:

acquiring administrative management data, establishing a standard address according to the administrative management data, and storing the standard address in an address library by taking a virtual cell as a grouping unit, wherein the administrative management data comprises cell division data, cell building number data, cell unit number data and cell room number data;

establishing an association radiation relation between each virtual cell and a service station;

and acquiring non-standard position data of the periphery of each virtual cell, establishing a custom address according to the non-standard position data, and storing the custom address into the virtual cell corresponding to the address library.

Optionally, before the determining the matching area of the second address according to the boundary of each electronic fence, the method further includes:

obtaining regional geographic data and service station distribution data;

and establishing a multi-level electronic fence according to the regional geographic data and the service station distribution data, wherein the electronic fence comprises an electronic fence which externally radiates with a fixed radius by taking each service station as a center.

Optionally, the determining, from the service stations adjacent to the second address, the service station satisfying the distance effect maximization as the second target service station specifically includes:

Converting the coordinates of the first address into a first hash value according to a hash algorithm;

comparing the first hash value with a second hash value corresponding to the service station to obtain a hash value difference sorting list;

obtaining a plurality of candidate service stations with the smallest hash value difference from the hash value difference sorting list, calculating the driving distance between the first address and each candidate service station, and obtaining a driving distance interval parameter;

acquiring the recovery order processing time of each service station in a fixed history period, the residual man-hour of online service personnel and the total quantity of unfinished recovery orders;

calculating the distance effect corresponding to each service station according to the driving distance interval parameter, the recovery order processing time length, the residual working hours of the online service personnel and the total quantity of the unfinished recovery orders;

and determining the service station meeting the maximization of the distance effect as a second target service station.

Optionally, calculating a distance effect corresponding to each service station according to the driving distance interval parameter, the recovery order processing duration, the residual working hours of the online service personnel and the total amount of the unfinished recovery orders specifically includes:

multiplying the recovery order processing time by a first weight to obtain a first calculated value;

Multiplying the residual working hours of the online service personnel by a second weight to obtain a second calculated value;

multiplying the total quantity of the incomplete recovery orders by a third weight to obtain a third calculated value;

adding the first calculated value, the second calculated value and the third calculated value to obtain a calculated value sum;

and multiplying the calculated value sum by the driving distance interval parameter to obtain a distance effect.

Optionally, after the matching of the first address and the second address is successful, the distributing the recovery order information to the service station corresponding to the second address according to the association radiation relationship stored in the address library further includes:

if the address type of the first address is a custom address, acquiring the custom address total amount of a first virtual cell where the first address is located;

if the total amount of the custom addresses exceeds a first threshold value, a second virtual cell is established, and the custom address of the first virtual cell is transferred to the second virtual cell;

and establishing an association radiation relation between the second virtual cell and the new service station.

Optionally, after determining, from the service stations adjacent to the first address, the service station satisfying the distance effect maximization as the second target service station, and distributing the recovery order information to the second target service station, the method further includes:

Acquiring a target completion recovery order, wherein the corresponding address of the target completion recovery order is positioned in a junction area between electronic fences;

comparing the service time length for completing the recovery order with the set time length;

and adjusting the boundary of the adjacent electronic fence according to the comparison result.

Optionally, after determining, from the service stations adjacent to the first address, the service station satisfying the distance effect maximization as the second target service station, and distributing the recovery order information to the second target service station, the method further includes:

acquiring historical recovery orders, and counting the proportion information of the junction areas between the electronic fences, corresponding to the historical recovery orders;

and outputting early warning information according to the proportion information, wherein the early warning information is used for indicating to supplement a new service station to cover the junction area between the electronic fences.

In a second aspect, the present application provides a recycling system for recyclable items, the system comprising: the device comprises a memory and a processor, wherein the memory comprises a program of a recycling method of recyclable articles, and the program of the recycling method of the recyclable articles realizes the following steps when being executed by the processor:

Acquiring recovery order information, and extracting a first address from the recovery order information;

matching the first address with a second address in an address library, wherein the second address comprises a standard address and a custom address;

if the first address is successfully matched with the second address, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library so as to enable service personnel in the service station to recover the corresponding recoverable article;

if the matching of the first address and the second address is unsuccessful, the method specifically further includes:

determining a matching area of the first address according to the boundary of each electronic fence;

if the matching area is the inside of a target electronic fence in the electronic fences, determining a service station corresponding to the target electronic fence as a first target service station, and distributing the recovery order information to the first target service station so as to enable service personnel in the first target service station to recover corresponding recoverable articles;

and if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recycling order information to the second target service station so as to enable service personnel in the second target service station to recycle the corresponding recyclable articles.

In a third aspect, the present application also provides a computer readable storage medium, including therein a recycling method program of a recyclable item, which when executed by a processor, implements the steps of the recycling method of a recyclable item according to any of the embodiments of the present application.

As can be seen from the above, the recycling method, system and medium for recyclable articles provided by the present application obtain recycling order information, extract a first address from the recycling order information, and match the first address with a second address in an address library, where the second address includes a standard address and a custom address; if the first address and the second address are successfully matched, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library; if the first address is not successfully matched with the second address, continuously determining a matching area of the first address according to the boundary of each electronic fence; if the matching area is the inside of the target electronic fence, determining that the service station corresponding to the target electronic fence is a first target service station, and distributing the recovery order information to the first target service station; and if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recovery order information to the second target service station. The method and the system have the advantages that the accurate planning of the address is guaranteed by establishing the virtual cell which supports the standard address and the custom address, meanwhile, the service station corresponding to the recovery order is determined by calculating the distance effect of the recovery order in the junction area between the electronic fences, the reasonable dispatch of the junction area between the electronic fences is guaranteed, and the comprehensive radiation coverage is realized.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the embodiments of the application. The objectives and other advantages of the application will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method for recycling recyclable items provided in an embodiment of the present application;

fig. 2 is a flowchart of establishing a virtual cell in a recycling method of recyclable items according to an embodiment of the present application;

FIG. 3 is a flowchart of an electronic fence setup for a method of recycling recyclable items provided in an embodiment of the present application;

fig. 4 is a schematic structural diagram of a recycling system for recyclable articles according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only to distinguish the description, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1, a flowchart of a method for recycling recyclable items in some embodiments of the present application is shown. The recycling method of the recyclable articles is used in computer equipment with computing capability, such as computers, mobile phone terminals, servers and the like. The recycling method of the recyclable item comprises the following steps:

s101, acquiring recovery order information, and extracting a first address from the recovery order information;

s102, matching the first address with a second address in an address library, wherein the second address comprises a standard address and a custom address;

s103, if the first address is successfully matched with the second address, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library, so that service personnel in the service station can recover the corresponding recoverable article;

s104, if the matching of the first address and the second address is unsuccessful, the method specifically further comprises:

s105, determining a matching area of the first address according to the boundary of each electronic fence;

s106, if the matching area is the inside of a target electronic fence in the electronic fences, determining a service station corresponding to the target electronic fence as a first target service station, and distributing the recycling order information to the first target service station so as to enable service personnel in the first target service station to recycle the corresponding recyclable articles;

And S107, if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recycling order information to the second target service station so as to enable service personnel in the second target service station to recycle the corresponding recyclable articles.

It should be noted that, the embodiment of the application is an internet+on-line article recycling mode, and the internet thinking is used for enabling the traditional recycling industry. The user can inform the personnel of the recovery station to go to the gate for recovery through the mode of establishing the recovery order, so that the recovery order data can be traced, and the safety and the timeliness can be guaranteed. The standard addresses in the address library are standardized cell addresses including specific streets, cells, etc., while the custom addresses are non-standard locations around the cell, such as shops, factories, self-building houses, rural houses, etc. Thus, according to the established standard address and the customized address, the association radiation relation is established with the established service station, and one service station can correspond to a plurality of addresses. When the user establishes the order address, the address in the address library can be used as the association reference for the user to select. Therefore, the ordering address of the user can be accurately matched with the address in the address library, and therefore a proper service station is distributed through a preset association radiation relation. In consideration of that standard addresses and custom addresses in an address library cannot completely cover the ordering addresses of users, the embodiment of the application also sets an electronic fence which takes a server as a center and radiates with a fixed radius, and the users can realize automatic positioning or map dragging and locating through a positioning function by starting a map ordering mode, so that the ordering addresses are established by positioning positions, and the ordering addresses are compared with a plurality of electronic fence ranges. For the order address hitting a certain electronic fence range, the recovery order is distributed to the service station corresponding to the electronic fence, and for the order address hitting the junction area between the electronic fences, the distance effect mode is calculated to determine the proper service station.

Optionally, the standard address or the custom address, where the order is completed after the order is placed, can be marked, and used as a "real address" memory table, as reference data for updating the subsequent address library and cleaning the data, so as to more effectively manage the address.

The recovery order information is obtained, a first address is extracted from the recovery order information, and the first address is matched with a second address in an address library, wherein the second address comprises a standard address and a custom address; if the first address and the second address are successfully matched, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library; if the first address is not successfully matched with the second address, continuously determining a matching area of the first address according to the boundary of each electronic fence; if the matching area is the inside of the target electronic fence, determining that the service station corresponding to the target electronic fence is a first target service station, and distributing the recovery order information to the first target service station; and if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recovery order information to the second target service station. The method and the system have the advantages that the accurate planning of the address is guaranteed by establishing the virtual cell which supports the standard address and the custom address, meanwhile, the service station corresponding to the recovery order is determined by calculating the distance effect of the recovery order in the junction area between the electronic fences, the reasonable dispatch of the junction area between the electronic fences is guaranteed, and the comprehensive radiation coverage is realized.

Referring to fig. 2, a flowchart of establishing a virtual cell in a method for recycling recoverable articles according to an embodiment of the present application is shown. According to an embodiment of the present invention, before the acquiring the recovery order information and extracting the first address from the recovery order information, the method specifically further includes:

s201, acquiring administrative management data, establishing a standard address according to the administrative management data, and storing the standard address in an address library by taking a virtual cell as a grouping unit, wherein the administrative management data comprises cell division data, cell building number data, cell unit number data and cell room number data;

s202, establishing an association radiation relation between each virtual cell and a service station;

s203, acquiring non-standard position data of the periphery of each virtual cell, establishing a custom address according to the non-standard position data, and storing the custom address into the virtual cell corresponding to the address library.

The source of the administrative data may be government open data or may be a data source provided by a service demand unit, and the minimum administrative unit corresponding to the administrative data may be a street, a community, a cell, or the like. The coverage area of the virtual cell may be consistent with or part of the physical cell. The virtual cell can be assigned with a unique identifier, and the service station can be assigned with a unique code, and an association radiation relationship can be established by using the unique identifier and the unique code, so that when the address information corresponding to the received recovery order information is matched with the virtual cell, the recovery order can be issued to the corresponding service station. Further, the standard address can be further refined based on the number of the physical cells, the number of units and the room number, so that the model granularity of the virtual cells is refined to the room number level. The self-defined address can be correspondingly established facing to the non-standard position of the cell periphery, such as shops, factories, self-built houses, rural houses and the like, and then the self-defined address is added to the corresponding virtual cell by combining the set distance. The standard address, the custom address and the virtual cell are bound, and the granularity of the address library is refined to the finest level, so that the effect of address standardization is achieved.

Referring to fig. 3, a flowchart of an electronic fence establishment of a recycling method of recyclable items according to an embodiment of the present application is shown. According to an embodiment of the present invention, before the determining the matching area of the second address according to the boundary of each electronic fence, the method specifically further includes:

s301, obtaining regional geographic data and service station distribution data;

s302, establishing a multi-stage electronic fence according to the regional geographic data and the service station distribution data, wherein the electronic fence comprises an electronic fence which externally radiates with a fixed radius by taking each service station as a center.

When the user establishes the order address, the established standard address and the custom address can be used as references, and the address with definite structure and grading can be selected as the order address. For addresses that do not match standard addresses as well as custom addresses, an electronic fence may be utilized to determine the corresponding service station. The electronic fence can be established with reference to the geographical data of the area and the distribution data of the service stations, for example, the electronic fence can be established in multiple levels according to different area ranges, for example, an administrative city level area is used as a first-level electronic fence, an administrative district level area is used as a second-level electronic fence, an area with a fixed radius as a radiation range in each administrative district level area is used as a third-level electronic fence with the service station as a center, and of course, the third-level electronic fence can also be used as a center with the service station, and a developer can autonomously select the radiation range. Specifically, the order placing address can be resolved to longitude and latitude based on the GPS positioning data of the user, then the electronic fence range is locked through comparison of the longitude and the latitude, and the designated service station for recycling orders is issued. In one embodiment, the forming of json files by range-looping of electronic fences is an example:

{"type":"FeatureCollection","features":[{"type":"Feature","id":8291,"properties":{},"geometry":{"type":"Polygon","coordinates":[[[120.95874876,29.45012615],[120.98147668,29.45142966],[121.00385326,29.4568915],[121.03441986,29.44524716],[121.083806,29.44634839],[120.97599047,29.52379705],[120.95874876,29.45012615]]]},"bbox":[120.95874876,29.44524716,121.083806,29.52379705]},{"type":"Feature","id":10831,"properties":{},"geometry":{"type":"Polygon","coordinates":[[[120.97803547,29.52279836],[120.97918671,29.52011721],[120.97803547,29.52279836]]]},"bbox":[120.97803547,29.52011721,120.97918671,29.52279836]},{"type":"Feature","id":11125,"properties":{},"geometry":{"type":"Polygon","coordinates":[[[120.99342901,29.4791545],[120.99365245,29.4796085],[120.99342901,29.4791545]]]},"bbox":[120.99342901,29.4791545,120.99365245,29.4796085]}],"gid":5413}

According to an embodiment of the present application, the determining, from service stations adjacent to the second address, a service station satisfying distance efficiency maximization as a second target service station specifically includes:

converting the coordinates of the first address into a first hash value according to a hash algorithm;

comparing the first hash value with a second hash value corresponding to the service station to obtain a hash value difference sorting list;

obtaining a plurality of candidate service stations with the smallest hash value difference from the hash value difference sorting list, calculating the driving distance between the first address and each candidate service station, and obtaining a driving distance interval parameter;

acquiring the recovery order processing time of each service station in a fixed history period, the residual man-hour of online service personnel and the total quantity of unfinished recovery orders;

calculating the distance effect corresponding to each service station according to the driving distance interval parameter, the recovery order processing time length, the residual working hours of the online service personnel and the total quantity of the unfinished recovery orders;

and determining the service station meeting the maximization of the distance effect as a second target service station.

In one embodiment, according to the driving distance interval parameter, the recovery order processing duration, the residual working hours of the online service personnel and the total amount of the unfinished recovery orders, the specific implementation process of calculating the distance effect corresponding to each service station is as follows:

Multiplying the recovery order processing time by a first weight to obtain a first calculated value;

multiplying the residual working hours of the online service personnel by a second weight to obtain a second calculated value;

multiplying the total quantity of the incomplete recovery orders by a third weight to obtain a third calculated value;

adding the first calculated value, the second calculated value and the third calculated value to obtain a calculated value sum;

and multiplying the calculated value sum by the driving distance interval parameter to obtain a distance effect.

The distance efficiency refers to effect difference data generated by distance dispatching, the recovery order processing data of the service stations within the distance threshold range are normalized, the data index items comprise total recovery order quantity in the recovery service stations, average recovery order processing time in the last n hours, on-line service personnel quantity and the like, the distance efficiency data are calculated through distribution of different weights, and finally, the service stations with the maximum distance efficiency are subjected to recovery order placement.

In one embodiment, the correlation formula for calculating the distance effect may be:

and distance interval parameter (third weight of total unfinished recovery order number in the second weight service station of the residual working hours of the online service personnel of the first weight of the N-hour recovery order processing duration).

Above-mentioned, when standardized address data can't satisfy user's instant demand of ordering, promptly through location and electronic fence service range locking, carry out the dispatch of retrieving the order, carry out the optimal dispatch through the distance effect data simultaneously, guarantee quality of service.

The embodiment of the application also provides a specific implementation process of the new virtual cell establishment of the recycling method of the recyclable item. According to an embodiment of the present invention, after the matching of the first address and the second address is successful, the distributing the recovery order information to the service station corresponding to the second address according to the association radiation relationship stored in the address library further includes:

if the address type of the first address is a custom address, acquiring the custom address total amount of a first virtual cell where the first address is located;

if the total amount of the custom addresses exceeds a first threshold value, a second virtual cell is established, and the custom address of the first virtual cell is transferred to the second virtual cell;

and establishing an association radiation relation between the second virtual cell and the new service station.

It should be noted that, each virtual cell corresponds to a specific service station according to the association radiation relationship, when the custom address in the virtual cell exceeds the first threshold, the service efficiency is easily affected by the excessive recovery order quantity for the corresponding service station. And analyzing the custom address data of the virtual cell, determining whether to strip the custom address set from the virtual cell, establishing a new virtual cell, and adding a new service station to correspond to the new virtual cell. In addition, service personnel can be added for the service station, and the refinement and perfection of the virtual cell can be realized in the operation process of the service.

Embodiments of the present application also provide a specific implementation process of optimizing boundaries of an electronic fence for a recycling method of recyclable items. According to an embodiment of the present invention, after determining, from service stations adjacent to the first address, a service station satisfying a distance effect maximization as a second target service station in the handover area between the electronic fences if the matching area is the matching area, the allocation of the recycle order information to the second target service station further includes:

acquiring a target completion recovery order, wherein the corresponding address of the target completion recovery order is positioned in a junction area between electronic fences;

comparing the service time length for completing the recovery order with the set time length;

and adjusting the boundary of the adjacent electronic fence according to the comparison result.

It should be noted that, for the target of the handover area between the electronic fences with the address, the service duration of the target for completing the recovery order may be counted and analyzed, and for the target of the service duration exceeding the set duration for completing the recovery order, the radiation range of the electronic fence with the address may be considered to be too large, and adjustment may be required to be performed, so as to determine the rationality of the electronic fence division

The embodiment of the application also provides a specific implementation process of early warning information generation of the recycling method of the recyclable article. According to an embodiment of the present invention, after determining, from service stations adjacent to the first address, a service station satisfying a distance effect maximization as a second target service station in the handover area between the electronic fences if the matching area is the matching area, the allocation of the recycle order information to the second target service station further includes:

Acquiring historical recovery orders, and counting the proportion information of the junction areas between the electronic fences, corresponding to the historical recovery orders;

and outputting early warning information according to the proportion information, wherein the early warning information is used for indicating to supplement a new service station to cover the junction area between the electronic fences.

It should be noted that, for the case that the recycling orders in the junction between the electronic fences are too dense, the early warning can be timely performed by calculating the proportion, so as to instruct to supplement a new service station to cover the junction between the electronic fences. The standardized processing of the virtual cell is carried out on the custom address by finding the grouping characteristic and the scale of the custom address; and (3) for the condition that recovery orders falling in the junction area between the electronic fences are concentrated, timely early warning the supplement of the service station and the service personnel, and realizing the back feeding and the supplement of the service scene.

As shown in fig. 4, the invention also discloses a recycling system of recyclable items, comprising a memory 41 and a processor 42, wherein the memory 41 comprises a program of recycling methods of recyclable items, and the program of recycling methods of recyclable items realizes the following steps when executed by the processor 42:

Acquiring recovery order information, and extracting a first address from the recovery order information;

matching the first address with a second address in an address library, wherein the second address comprises a standard address and a custom address;

if the first address is successfully matched with the second address, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library so as to enable service personnel in the service station to recover the corresponding recoverable article;

if the matching of the first address and the second address is unsuccessful, the method specifically further includes:

determining a matching area of the first address according to the boundary of each electronic fence;

if the matching area is the inside of a target electronic fence in the electronic fences, determining a service station corresponding to the target electronic fence as a first target service station, and distributing the recovery order information to the first target service station so as to enable service personnel in the first target service station to recover corresponding recoverable articles;

and if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recycling order information to the second target service station so as to enable service personnel in the second target service station to recycle the corresponding recyclable articles.

According to the recycling system for the recyclable articles, the recycling order information is obtained, the first address is extracted from the recycling order information, and the first address is matched with the second address in the address library, wherein the second address comprises a standard address and a custom address; if the first address and the second address are successfully matched, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library; if the first address is not successfully matched with the second address, continuously determining a matching area of the first address according to the boundary of each electronic fence; if the matching area is the inside of the target electronic fence, determining that the service station corresponding to the target electronic fence is a first target service station, and distributing the recovery order information to the first target service station; and if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recovery order information to the second target service station. The method and the system have the advantages that the accurate planning of the address is guaranteed by establishing the virtual cell which supports the standard address and the custom address, meanwhile, the service station corresponding to the recovery order is determined by calculating the distance effect of the recovery order in the junction area between the electronic fences, the reasonable dispatch of the junction area between the electronic fences is guaranteed, and the comprehensive radiation coverage is realized.

The present invention also provides a computer-readable storage medium having embodied therein a recyclable item recycling method program which, when executed by a processor, implements the steps of the recyclable item recycling method as described in any one of the above.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units; can be located in one place or distributed to a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated in one processing unit, or each unit may be separately used as one unit, or two or more units may be integrated in one unit; the integrated units may be implemented in hardware or in hardware plus software functional units.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a readable storage medium, where the program, when executed, performs steps including the above method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk or an optical disk, or the like, which can store program codes.

Alternatively, the above-described integrated units of the present invention may be stored in a readable storage medium if implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solution of the embodiments of the present invention may be embodied in essence or a part contributing to the prior art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, ROM, RAM, magnetic or optical disk, or other medium capable of storing program code.

Claims (8)

1. A method of recycling recyclable items, the method comprising:

acquiring recovery order information, and extracting a first address from the recovery order information;

matching the first address with a second address in an address library, wherein the second address comprises a standard address and a custom address;

if the first address is successfully matched with the second address, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library so as to enable service personnel in the service station to recover the corresponding recoverable article;

if the matching of the first address and the second address is unsuccessful, the method specifically further includes:

determining a matching area of the first address according to the boundary of each electronic fence;

if the matching area is the inside of a target electronic fence in the electronic fences, determining a service station corresponding to the target electronic fence as a first target service station, and distributing the recovery order information to the first target service station so as to enable service personnel in the first target service station to recover corresponding recoverable articles;

if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recycling order information to the second target service station so as to enable service personnel in the second target service station to recycle the corresponding recyclable articles;

Before the determining the matching area of the second address according to the boundary of each electronic fence, the method further comprises:

obtaining regional geographic data and service station distribution data;

establishing a multi-level electronic fence according to the regional geographic data and the service station distribution data, wherein the electronic fence comprises an electronic fence which externally radiates with a fixed radius by taking each service station as a center;

the determining, from the service stations adjacent to the first address, the service station satisfying the distance effect maximization as the second target service station specifically includes:

converting the coordinates of the first address into a first hash value according to a hash algorithm;

comparing the first hash value with a second hash value corresponding to the service station to obtain a hash value difference sorting list;

obtaining a plurality of candidate service stations with the smallest hash value difference from the hash value difference sorting list, calculating the driving distance between the first address and each candidate service station, and obtaining a driving distance interval parameter;

acquiring the recovery order processing time of each service station in a fixed history period, the residual man-hour of online service personnel and the total quantity of unfinished recovery orders;

Calculating the distance effect corresponding to each service station according to the driving distance interval parameter, the recovery order processing time length, the residual working hours of the online service personnel and the total quantity of the unfinished recovery orders;

and determining the service station meeting the maximization of the distance effect as a second target service station.

2. The method of claim 1, further comprising, prior to said obtaining recovery order information and extracting a first address from said recovery order information:

acquiring administrative management data, establishing a standard address according to the administrative management data, and storing the standard address in an address library by taking a virtual cell as a grouping unit, wherein the administrative management data comprises cell division data, cell building number data, cell unit number data and cell room number data;

establishing an association radiation relation between each virtual cell and a service station;

and acquiring non-standard position data of the periphery of each virtual cell, establishing a custom address according to the non-standard position data, and storing the custom address into the virtual cell corresponding to the address library.

3. The method for recycling recoverable articles according to claim 1, wherein calculating a distance effect corresponding to each service station according to the travel distance interval parameter, the recycling order processing duration, the remaining man-hours of the online service personnel and the total amount of the incomplete recycling orders specifically comprises:

Multiplying the recovery order processing time by a first weight to obtain a first calculated value;

multiplying the residual working hours of the online service personnel by a second weight to obtain a second calculated value;

multiplying the total quantity of the incomplete recovery orders by a third weight to obtain a third calculated value;

adding the first calculated value, the second calculated value and the third calculated value to obtain a calculated value sum;

and multiplying the calculated value sum by the driving distance interval parameter to obtain a distance effect.

4. The recycling method of recyclable items according to claim 2, further comprising, after the matching of the first address and the second address is successful, distributing the recycling order information to a service station corresponding to the second address according to the association radiation relationship stored in the address library:

if the address type of the first address is a custom address, acquiring the custom address total amount of a first virtual cell where the first address is located;

if the total amount of the custom addresses exceeds a first threshold value, a second virtual cell is established, and the custom address of the first virtual cell is transferred to the second virtual cell;

and establishing an association radiation relation between the second virtual cell and the new service station.

5. The recycling method of recyclable items according to claim 1, wherein, in a junction between the matching areas being electronic fences, a service station satisfying a distance effect maximization is determined as a second target service station from service stations adjacent to the first address, and after the recycling order information is distributed to the second target service station, further comprising:

acquiring a target completion recovery order, wherein the corresponding address of the target completion recovery order is positioned in a junction area between electronic fences;

comparing the service time length for completing the recovery order with the set time length;

and adjusting the boundary of the adjacent electronic fence according to the comparison result.

6. The recycling method of recyclable items according to claim 1, wherein, in a junction between the matching areas being electronic fences, a service station satisfying a distance effect maximization is determined as a second target service station from service stations adjacent to the first address, and after the recycling order information is distributed to the second target service station, further comprising:

acquiring historical recovery orders, and counting the proportion information of the junction areas between the electronic fences, corresponding to the historical recovery orders;

And outputting early warning information according to the proportion information, wherein the early warning information is used for indicating to supplement a new service station to cover the junction area between the electronic fences.

7. A recycling system for recyclable items, the system comprising: the device comprises a memory and a processor, wherein the memory comprises a program of a recycling method of recyclable articles, and the program of the recycling method of the recyclable articles realizes the following steps when being executed by the processor:

acquiring recovery order information, and extracting a first address from the recovery order information;

matching the first address with a second address in an address library, wherein the second address comprises a standard address and a custom address;

if the first address is successfully matched with the second address, distributing the recovery order information to a service station corresponding to the second address according to the association radiation relation stored in the address library so as to enable service personnel in the service station to recover the corresponding recoverable article;

if the matching of the first address and the second address is unsuccessful, the method specifically further includes:

determining a matching area of the first address according to the boundary of each electronic fence;

If the matching area is the inside of a target electronic fence in the electronic fences, determining a service station corresponding to the target electronic fence as a first target service station, and distributing the recovery order information to the first target service station so as to enable service personnel in the first target service station to recover corresponding recoverable articles;

if the matching area is a junction area between the electronic fences, determining a service station meeting the maximization of distance effect from service stations adjacent to the first address as a second target service station, and distributing the recycling order information to the second target service station so as to enable service personnel in the second target service station to recycle the corresponding recyclable articles;

before the determining the matching area of the second address according to the boundary of each electronic fence, the method further comprises:

obtaining regional geographic data and service station distribution data;

establishing a multi-level electronic fence according to the regional geographic data and the service station distribution data, wherein the electronic fence comprises an electronic fence which externally radiates with a fixed radius by taking each service station as a center;

the determining, from the service stations adjacent to the first address, the service station satisfying the distance effect maximization as the second target service station specifically includes:

Converting the coordinates of the first address into a first hash value according to a hash algorithm;

comparing the first hash value with a second hash value corresponding to the service station to obtain a hash value difference sorting list;

obtaining a plurality of candidate service stations with the smallest hash value difference from the hash value difference sorting list, calculating the driving distance between the first address and each candidate service station, and obtaining a driving distance interval parameter;

acquiring the recovery order processing time of each service station in a fixed history period, the residual man-hour of online service personnel and the total quantity of unfinished recovery orders;

calculating the distance effect corresponding to each service station according to the driving distance interval parameter, the recovery order processing time length, the residual working hours of the online service personnel and the total quantity of the unfinished recovery orders;

and determining the service station meeting the maximization of the distance effect as a second target service station.

8. A computer-readable storage medium, characterized in that a recycling method program of a recyclable item is included in the computer-readable storage medium, which, when executed by a processor, implements the steps of the recycling method of a recyclable item according to any one of claims 1 to 6.

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