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CN-121983347-A - Dynamic adjustment method, system, equipment and storage medium for killing path

CN121983347ACN 121983347 ACN121983347 ACN 121983347ACN-121983347-A

Abstract

The embodiment of the application discloses a dynamic adjustment method, a system, equipment and a storage medium for a killing path, which comprise the steps of determining the killing complexity of each preset killing path according to real-time acquired positioning information of a killing person, calculating the complexity difference between each killing complexity and the preset killing complexity, determining the preset killing path with the complexity difference as a path to be adjusted, sequentially carrying out accumulated calculation on the preset killing complexity of each point to be killed by taking the point to be killed at the tail end of the path to be adjusted as a starting point to determine the target killing point meeting the complexity difference, carrying out path interception on the target killing point to generate a first target killing path, carrying out matching treatment on the tail end point of the first target killing path and the positions of the killing person on each preset killing path to determine the target killing path, carrying out connection treatment on the target killing path and the tail end point of the first target killing path to generate a second target killing path, and balancing the killing efficiency of each killing path and improving the killing effect.

Inventors

  • DONG GUANGMING
  • CHEN LIHONG
  • HU REN

Assignees

  • 深圳聚瑞云控科技有限公司

Dates

Publication Date
20260505
Application Date
20260403

Claims (10)

  1. 1. A method for dynamically adjusting a disinfection path, comprising: Determining the killing complexity of each preset killing path according to real-time acquired killing personnel positioning information, calculating a complexity difference value between the killing complexity and the preset killing complexity, determining the preset killing path with the complexity difference value as a path to be adjusted, wherein the preset killing path comprises a plurality of points to be killed; Sequentially carrying out accumulation calculation on the preset killing complexity of each point to be killed by taking the point to be killed at the tail end of the path to be regulated as a starting point, determining a target killing point position meeting the complexity difference value on the path to be regulated according to an accumulation result, and carrying out path interception on the target killing point position to generate a first target killing path; matching the terminal point positions of the first target killing paths with the positions of the killing persons on the preset killing paths, determining target killing persons according to the matching results, determining target killing paths to which the target killing persons belong, and carrying out connection processing on the target killing paths and the terminal point positions of the first target killing paths to generate second target killing paths.
  2. 2. The method for dynamically adjusting a disinfection path according to claim 1, wherein the step of performing a linking process on the target disinfection path and an end point of the first target disinfection path to generate a second target disinfection path includes: Determining a first connection point position closest to the end point position of the first target killing path on the target killing path, judging the point position type of the first connection point position, and generating a connection path based on the point position type; and carrying out connection processing on the target killing path and the connection path at the first connection point position to generate a second target killing path.
  3. 3. The method for dynamically adjusting a disinfection path according to claim 2, wherein generating a joining path based on the point location type comprises: Generating a first connection path according to the first connection point and the target killing point under the condition that the point type is the end point of the target killing path; And under the condition that the point type is a non-end point of the target killing path, determining a next second connection point adjacent to the first connection point, and generating a second connection path according to the first connection point, the second connection point and the end point of the first target killing path.
  4. 4. The method for dynamically adjusting a disinfection path according to claim 1, wherein the accumulation result includes an accumulation value corresponding to each accumulation calculation, and the determining, according to the accumulation result, a target disinfection point on the path to be adjusted that satisfies the complexity difference value includes: And screening each accumulated value according to the complexity difference value to determine an effective accumulated value on the path to be adjusted, and determining the killing point in the killing point set corresponding to the effective accumulated value as a target killing point on the path to be adjusted.
  5. 5. The method for dynamically adjusting a disinfection path according to claim 4, wherein the step of screening each accumulated value according to the complexity difference value to determine an effective accumulated value on the path to be adjusted comprises: And comparing each accumulated value with the complexity difference value, calculating the difference degree of each accumulated value and the complexity difference value, and determining the accumulated value which is smaller than the complexity difference value and has the smallest difference degree as an effective accumulated value on the path to be adjusted.
  6. 6. The method for dynamically adjusting a disinfection path according to claim 1, wherein determining the disinfection complexity of each preset disinfection path according to the real-time collected disinfection personnel positioning information comprises: generating a killing track according to the real-time acquired positioning information of the killing personnel, and intercepting the killing track according to the killing points on each preset killing path to obtain a target killing track corresponding to each killing point; And identifying the track length and the track moving speed of the target killing track, calculating first killing complexity corresponding to each killing point according to the track length and the track moving speed, and calculating the killing complexity of each preset killing path based on each first killing complexity.
  7. 7. The method of dynamic adjustment of a vanishing path according to claim 6, further comprising, after calculating the first vanishing complexity corresponding to each vanishing point according to the track length and the track moving speed: Identifying whether a foldback track exists on the target killing track, and under the condition that the foldback track exists on the target killing track, weighting the first killing complexity according to a preset weighting coefficient to obtain a second killing complexity; correspondingly, the calculating the killing complexity of each preset killing path based on each first killing complexity includes: And calculating the killing complexity of each preset killing path based on each second killing complexity.
  8. 8. A system for dynamically adjusting a disinfection path, comprising: the complexity difference value determining module is used for determining the killing complexity of each preset killing path according to the real-time acquired killing personnel positioning information, calculating the complexity difference value between the path killing complexity and the preset killing complexity, determining the preset killing path with the complexity difference value as a path to be adjusted, wherein the preset killing path comprises a plurality of points to be killed; The target killing point position determining module is used for sequentially carrying out accumulation calculation on the preset killing complexity of each point to be killed by taking the point to be killed at the tail end of the path to be regulated as a starting point, and determining a target killing point position meeting the complexity difference value on the path to be regulated according to an accumulation result; The first target killing path generation module is used for carrying out path interception on the target killing point positions to generate a first target killing path; the target killing path module is used for matching the end point position of the first target killing path with the positions of the killing persons on the killing paths, determining target killing persons according to the matching result, and determining the target killing path to which the target killing persons belong; and the second target killing path generation module is used for carrying out connection processing on the target killing path and the terminal point position of the first target killing path to generate a second target killing path.
  9. 9. An electronic device comprising one or more processors and storage means for storing one or more programs that, when executed by the one or more processors, cause the one or more processors to implement the method of dynamic adjustment of a disinfection path as claimed in any one of claims 1-7.
  10. 10. A storage medium storing computer executable instructions which, when executed by a computer processor, are for performing the method of dynamic adjustment of a disinfection path as claimed in any one of claims 1 to 7.

Description

Dynamic adjustment method, system, equipment and storage medium for killing path Technical Field The embodiment of the application relates to the field of data processing, in particular to a method, a system, equipment and a storage medium for dynamically adjusting a killing path. Background Under the background of increasingly urgent demands for prevention and control of various infectious diseases, efficient, accurate and intelligent disinfection work has become a key link for guaranteeing normal operation of social production and life. The traditional killing mode has the advantages of labor cost, working efficiency, flexibility, comprehensiveness of the killing effect and the like, and has no challenges in the prior art, and the automatic generation of the killing path technology is inoculated and developed for breaking through the dilemma. In the related art, a plurality of fixed killing paths are automatically generated based on the positions of the killing areas or the positions among the killing points and the number of the killing points, and the same number of the killing points is generated, and each group of killing personnel kills according to the corresponding fixed killing paths. Disclosure of Invention The embodiment of the application provides a dynamic adjustment method, a system, equipment and a storage medium for a disinfection path, which solve the problems of poor disinfection effect and unbalanced disinfection efficiency of each disinfection path caused by the fact that the disinfection path cannot adapt to the dynamic change of the environment. The difference between the current killing complexity and the expected complexity can be timely determined by calculating the complexity difference in real time, and the length of each preset killing path is dynamically adjusted in a path intercepting and connecting mode based on the complexity difference, so that the killing complexity of each killing path is similar, the killing efficiency of each killing path is balanced, and the killing effect is correspondingly improved. In a first aspect, an embodiment of the present application provides a method for dynamically adjusting a disinfection path, including: Determining the killing complexity of each preset killing path according to the real-time acquired positioning information of the killing personnel, calculating the complexity difference value between the killing complexity and the preset killing complexity, determining the preset killing path with the complexity difference value as a path to be adjusted, wherein the preset killing path comprises a plurality of points to be killed; Sequentially carrying out accumulation calculation on the preset killing complexity of each point to be killed by taking the point to be killed at the tail end of the path to be regulated as a starting point, determining a target killing point which meets the complexity difference value on the path to be regulated according to the accumulation result, and carrying out path interception on the target killing point to generate a first target killing path; Matching the terminal point positions of the first target killing paths with the positions of the killing personnel on each preset killing path, determining the target killing personnel according to the matching result, determining the target killing paths of the target killing personnel, and carrying out linking treatment on the target killing paths and the terminal point positions of the first target killing paths to generate second target killing paths. Optionally, linking the target killing path with a terminal point location of the first target killing path to generate a second target killing path, including: Determining a first connection point position closest to the end point position of the first target killing path on the target killing path, judging the point position type of the first connection point position, and generating a connection path based on the point position type; And carrying out connection processing on the target killing path and the connection path at the first connection point position to generate a second target killing path. Optionally, generating the join path based on the point location type includes: generating a first connection path according to the first connection point and the target killing point under the condition that the point type is the end point of the target killing path; And under the condition that the point type is a non-end point of the target killing path, determining a next second connection point adjacent to the first connection point, and generating a second connection path according to the first connection point, the second connection point and the end point of the first target killing path. Optionally, the accumulating result includes accumulating and calculating a corresponding accumulating value each time, determining a target killing point position meeting the complexity difference on the path to be a