CN113298372A - Digital routing inspection task arranging method for stores in new retail industry - Google Patents

Abstract

The invention discloses a digital routing inspection task arranging method for stores in a new retail industry, which comprises the following steps of (1) setting an inspection system, and establishing three elements of an inspector, an inspection table and stores in the inspection system; (2) inputting the patroller and the attributes of the patroller into the patroller element; (3) recording specific polling items of the polling list and the polling list in polling list elements; (4) and entering store and store information in the store element. The invention provides a digital routing inspection task arranging method for stores in a new retail industry, which can better improve the accuracy and efficiency of routing inspection tasks, reduce the difficulty of routing inspection tasks, better improve the matching degree of elements, effectively improve the working efficiency and reduce the cost of enterprises.

Description

Digital routing inspection task arranging method for stores in new retail industry

Technical Field

The invention belongs to the field of computers, and particularly relates to a digital routing inspection task arranging method for stores in a new retail industry.

Background

With the vigorous development of new retail, great efforts are made by all major merchants beyond the expansion of retail channels, and the major merchants obtain remarkable achievements, but in the aspect of store operation, management problems in the aspect of store operation exist, such as store employee service quality, specification of commodity display, commodity shortage condition, overdue commodity, health and safety condition and the like.

The method mainly adopts a 'full-array + combination' generation algorithm according to the current task allocation arrangement mode, and takes a set A { patroller, patroller and store } as an example to explain a full-array generation method, wherein 6 types of array conditions exist for the set containing 3 elements, and 3 types of patrollers, patrollers and stores exist for the first element of each array, and the details are as follows:

1: for the arrangement of which the first element is a patroller, 2 kinds of second elements are selected to be a patrol table and a store;

2: for the arrangement of which the first element is an inspection table, 2 kinds of selective inspectors and stores are arranged as the second element;

3: for the arrangement of which the first element is a store, the second element is 2 kinds of selected polling persons and polling lists;

4: the temporal complexity is cubic: t (n) ═ O (n)³)；

5: suppose there are 10 patrollers, 10 patrolling tables, 10 stores and 10 x 1000 combined results in the final row.

This approach has the following disadvantages:

1. the task is manually allocated completely depending on the awareness of the administrator, so that errors are easy to generate;

2. the method adopts a 'full permutation + combination' algorithm to generate detailed task rules, and has complex and unclear process;

3. time and labor are wasted, and the task arrangement effect is poor.

Disclosure of Invention

The invention aims to overcome the problems and provides a new retail industry store digital routing inspection task arranging method, which better improves the accuracy and efficiency of routing inspection task arranging, reduces the difficulty of routing inspection task arranging, can also better improve the matching degree of elements, effectively improves the working efficiency and reduces the cost of enterprises.

The purpose of the invention is realized by the following technical scheme:

a digital routing inspection task arranging method for stores in a new retail industry comprises the following steps:

(1) setting up a polling system, and establishing three elements of a polling person, a polling list and a store in the polling system;

(2) inputting the patroller and the attributes of the patroller into the patroller element;

(3) recording specific polling items of the polling list and the polling list in polling list elements;

(4) entering store and store information in a store element;

(5) matching and scoring the patrolling person elements and the patrolling table elements to obtain the patrolling table score of the patrolling person;

(6) matching and scoring the patroller elements and the store elements to obtain a store score of the patroller;

(7) when the routing inspection task needs to be distributed, the routing inspection system randomly arranges stores in the store elements to obtain a store list with the serial numbers of 1-N, and matches routing inspection tables in the routing inspection table elements for the stores in the store list;

(8) and selecting a store with the sequence number a from the store list, calculating the comprehensive score of the patroller relative to the store with the sequence number a, allocating the patroller with the highest comprehensive score to the store with the sequence number a, judging whether a is N, if a is not N, repeating the step (8) by taking a +1 as a, and if a is N, finishing the allocation.

The patrolling personal attributes in the step (2) comprise an initial position of a patrolling person, a patrolling item which is carried out by the patrolling person and a store which is patrolled by the patrolling person.

The store information in the step (4) comprises store positions and store business information.

The specific method for matching and scoring the inspection person elements and the inspection table elements in the step (5) comprises the following steps:

(51) exhausting all polling items in all polling list elements;

(52) selecting the polling items in the step (51) in sequence and matching the polling items with the items which are processed by the polling person in the polling person elements respectively, and taking the times of the items which are processed by the polling person as a grading standard to obtain a single-item grade;

(53) and accumulating the single item scores of the inspectors according to the specific inspection items contained in the inspection table to obtain the inspection table scores.

In the step (52), the items which are counted for 0 time by the inspection person are counted for 0 minute, the items which are counted for 1 to 10 times by the inspection person are counted for 1 minute, the items which are counted for 11 to 20 times by the inspection person are counted for 2 minutes, and the items which are counted for 21 times or more by the inspection person are counted for 3 minutes.

The specific method for matching and scoring the patroller elements and the shop elements in the step (6) is as follows:

(61) selecting a store in the store element;

(62) carrying out distance scoring on the patrollers according to the initial positions of the patrollers in the patroller elements and the positions of stores in the store elements;

(63) scoring the number of times of the patrollers according to stores which are patrolled by the patrollers in the patroller elements;

(64) and accumulating the distance score and the frequency score obtained by the patroller to obtain the store score of the patroller.

In the step (62), the distance between the initial position of the inspector and the position of the door shop is 0-5km and 10 minutes, the distance between the initial position of the inspector and the position of the door shop is 5-10km and 5 minutes, the distance between the initial position of the inspector and the position of the door shop is 10-20km and 3 minutes, the distance between the initial position of the inspector and the position of the door shop is 20-40km and 1 minute, and the distance between the initial position of the inspector and the position of the door shop is more than 40km and 0 minute.

In the step (63), 0 minutes is recorded when the number of times of the stores patrolled by the patroller is 0, 3 minutes is recorded when the number of times of the stores patrolled by the patroller is 1-10, 5 minutes is recorded when the number of times of the stores patrolled by the patroller is 11-20, and 10 minutes is recorded when the number of times of the stores patrolled by the patroller is 21 or more.

And (4) the comprehensive score in the step (8) is the sum of the inspection table score of the inspector and the store score.

The specific steps in the step (8) are as follows:

(81) selecting a store with the serial number of 1, and setting 1 as a;

(82) calculating the comprehensive score of the patroller on the store with the serial number a, and distributing the patroller with the highest comprehensive score to the store with the serial number a;

(83) temporarily masking the patrollers assigned in step (82) in the patrolling system;

(84) and (4) judging whether a is N, if not, making a +1 be a and returning to the step (82), and if a is N, ending the distribution.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the invention better improves the accuracy and efficiency of routing inspection task arrangement, reduces the difficulty of routing inspection task arrangement, and simultaneously can better improve the matching degree between elements, effectively improves the working efficiency and reduces the cost of enterprises.

Detailed Description

The present invention will be described in further detail with reference to examples, but the embodiments of the present invention are not limited thereto.

Example 1

A digital routing inspection task arranging method for stores in a new retail industry comprises the following steps:

(1) setting up a polling system, and establishing three elements of a polling person, a polling list and a store in the polling system;

(2) inputting the patroller and the attributes of the patroller into the patroller element;

the patrolling personal attributes comprise an patrolling person initial position, a patrolling item which is carried out by the patrolling person and a store which is patrolled by the patrolling person.

(3) Recording specific polling items of the polling list and the polling list in polling list elements;

(4) entering store and store information in a store element;

the store information comprises store positions and store business information.

(5) Matching and scoring the patrolling person elements and the patrolling table elements to obtain the patrolling table score of the patrolling person;

the specific method for matching and scoring the inspection person elements and the inspection table elements comprises the following steps:

(51) exhausting all polling items in all polling list elements;

(52) selecting the polling items in the step (51) in sequence and matching the polling items with the items which are processed by the polling person in the polling person elements respectively, and taking the times of the items which are processed by the polling person as a grading standard to obtain a single-item grade;

(53) and accumulating the single item scores of the inspectors according to the specific inspection items contained in the inspection table to obtain the inspection table scores.

In the step (52), the items which are counted for 0 time by the inspection person are counted for 0 minute, the items which are counted for 1 to 10 times by the inspection person are counted for 1 minute, the items which are counted for 11 to 20 times by the inspection person are counted for 2 minutes, and the items which are counted for 21 times or more by the inspection person are counted for 3 minutes.

(6) Matching and scoring the patroller elements and the store elements to obtain a store score of the patroller;

the specific method for matching and scoring the patrolling person elements and the shop elements comprises the following steps:

(61) selecting a store in the store element;

(62) carrying out distance scoring on the patrollers according to the initial positions of the patrollers in the patroller elements and the positions of stores in the store elements;

(63) scoring the number of times of the patrollers according to stores which are patrolled by the patrollers in the patroller elements;

(64) and accumulating the distance score and the frequency score obtained by the patroller to obtain the store score of the patroller.

In the step (62), the distance between the initial position of the inspector and the position of the door shop is 0-5km and 10 minutes, the distance between the initial position of the inspector and the position of the door shop is 5-10km and 5 minutes, the distance between the initial position of the inspector and the position of the door shop is 10-20km and 3 minutes, the distance between the initial position of the inspector and the position of the door shop is 20-40km and 1 minute, and the distance between the initial position of the inspector and the position of the door shop is more than 40km and 0 minute.

In the step (63), 0 minutes is recorded when the number of times of the stores patrolled by the patroller is 0, 3 minutes is recorded when the number of times of the stores patrolled by the patroller is 1-10, 5 minutes is recorded when the number of times of the stores patrolled by the patroller is 11-20, and 10 minutes is recorded when the number of times of the stores patrolled by the patroller is 21 or more.

(7) When the routing inspection task needs to be distributed, the routing inspection system randomly arranges stores in the store elements to obtain a store list with the serial numbers of 1-N, and matches routing inspection tables in the routing inspection table elements for the stores in the store list;

the routing inspection system randomly arranges the stores in the store elements, so that each store can be arranged to the first place, and the flexibility of the step (8) is better improved.

(8) And selecting a store with the sequence number a from the store list, calculating the comprehensive score of the patroller relative to the store with the sequence number a, allocating the patroller with the highest comprehensive score to the store with the sequence number a, judging whether a is N, if a is not N, repeating the step (8) by taking a +1 as a, and if a is N, finishing the allocation.

The comprehensive score is the sum of the patrol table score of the patrol inspector and the store score.

The specific steps in the step (8) are as follows:

(81) selecting a store with the serial number of 1, and setting 1 as a;

(82) calculating the comprehensive score of the patroller on the store with the serial number a, and distributing the patroller with the highest comprehensive score to the store with the serial number a;

(83) temporarily masking the patrollers assigned in step (82) in the patrolling system;

(84) and (4) judging whether a is N, if not, making a +1 be a and returning to the step (82), and if a is N, ending the distribution.

By the method, the calculation difficulty can be effectively reduced, meanwhile, one inspection person can be prevented from being distributed to a plurality of stores, and the calculation efficiency is greatly improved.

As described above, the present invention can be preferably realized.

Claims (10)

1. A digital routing inspection task arranging method for stores in a new retail industry is characterized by comprising the following steps: the method comprises the following steps:

(1) setting up a polling system, and establishing three elements of a polling person, a polling list and a store in the polling system;

(2) inputting the patroller and the attributes of the patroller into the patroller element;

(3) recording specific polling items of the polling list and the polling list in polling list elements;

(4) entering store and store information in a store element;

(5) matching and scoring the patrolling person elements and the patrolling table elements to obtain the patrolling table score of the patrolling person;

(6) matching and scoring the patroller elements and the store elements to obtain a store score of the patroller;

(7) when the routing inspection task needs to be distributed, the routing inspection system randomly arranges stores in the store elements to obtain a store list with the serial numbers of 1-N, and matches routing inspection tables in the routing inspection table elements for the stores in the store list;

(8) and selecting a store with the sequence number a from the store list, calculating the comprehensive score of the patroller relative to the store with the sequence number a, allocating the patroller with the highest comprehensive score to the store with the sequence number a, judging whether a is N, if a is not N, repeating the step (8) by taking a +1 as a, and if a is N, finishing the allocation.

2. The new retail industry store digital patrol task orchestration method according to claim 1, wherein the method comprises the following steps: the patrolling personal attributes in the step (2) comprise an initial position of a patrolling person, a patrolling item which is carried out by the patrolling person and a store which is patrolled by the patrolling person.

3. The new retail industry store digital patrol task orchestration method according to claim 2, wherein the method comprises the following steps: the store information in the step (4) comprises store positions and store business information.

4. The new retail industry store digital patrol task orchestration method according to claim 3, wherein the method comprises the following steps: the specific method for matching and scoring the inspection person elements and the inspection table elements in the step (5) comprises the following steps:

(51) exhausting all polling items in all polling list elements;

(52) selecting the polling items in the step (51) in sequence and matching the polling items with the items which are processed by the polling person in the polling person elements respectively, and taking the times of the items which are processed by the polling person as a grading standard to obtain a single-item grade;

(53) and accumulating the single item scores of the inspectors according to the specific inspection items contained in the inspection table to obtain the inspection table scores.

5. The new retail industry store digital patrol task orchestration method according to claim 4, wherein the method comprises the following steps: in the step (52), the items which are counted for 0 time by the inspection person are counted for 0 minute, the items which are counted for 1 to 10 times by the inspection person are counted for 1 minute, the items which are counted for 11 to 20 times by the inspection person are counted for 2 minutes, and the items which are counted for 21 times or more by the inspection person are counted for 3 minutes.

6. The new retail industry store digital patrol task orchestration method according to claim 5, wherein the method comprises the following steps: the specific method for matching and scoring the patroller elements and the shop elements in the step (6) is as follows:

(61) selecting a store in the store element;

(62) carrying out distance scoring on the patrollers according to the initial positions of the patrollers in the patroller elements and the positions of stores in the store elements;

(63) scoring the number of times of the patrollers according to stores which are patrolled by the patrollers in the patroller elements;

(64) and accumulating the distance score and the frequency score obtained by the patroller to obtain the store score of the patroller.

7. The new retail industry store digital patrol task orchestration method according to claim 6, wherein the method comprises the following steps: in the step (62), the distance between the initial position of the inspector and the position of the door shop is 0-5km and 10 minutes, the distance between the initial position of the inspector and the position of the door shop is 5-10km and 5 minutes, the distance between the initial position of the inspector and the position of the door shop is 10-20km and 3 minutes, the distance between the initial position of the inspector and the position of the door shop is 20-40km and 1 minute, and the distance between the initial position of the inspector and the position of the door shop is more than 40km and 0 minute.

8. The new retail industry store digital patrol task orchestration method according to claim 7, wherein: in the step (63), 0 minutes is recorded when the number of times of the stores patrolled by the patroller is 0, 3 minutes is recorded when the number of times of the stores patrolled by the patroller is 1-10, 5 minutes is recorded when the number of times of the stores patrolled by the patroller is 11-20, and 10 minutes is recorded when the number of times of the stores patrolled by the patroller is 21 or more.

9. The new retail industry store digital patrol task orchestration method according to claim 8, wherein: and (4) the comprehensive score in the step (8) is the sum of the inspection table score of the inspector and the store score.

10. The new retail industry store digital patrol task orchestration method according to claim 9, wherein: the specific steps in the step (8) are as follows:

(81) selecting a store with the serial number of 1, and setting 1 as a;

(82) calculating the comprehensive score of the patroller on the store with the serial number a, and distributing the patroller with the highest comprehensive score to the store with the serial number a;

(83) temporarily masking the patrollers assigned in step (82) in the patrolling system;

(84) and (4) judging whether a is N, if not, making a +1 be a and returning to the step (82), and if a is N, ending the distribution.