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CN-122022658-A - Logistics path determining method and device and electronic equipment

CN122022658ACN 122022658 ACN122022658 ACN 122022658ACN-122022658-A

Abstract

The invention discloses a method for determining a logistics path, which comprises the steps of obtaining a plurality of logistics paths of a building object, extracting dimension parameters of a plurality of target dimensions in the logistics paths, determining a total evaluation value of each logistics path according to a weight coefficient corresponding to each target dimension and the dimension parameters of each target dimension, and determining the target logistics path from all logistics paths based on the total evaluation value, thereby determining the optimal logistics path as the target logistics path based on the evaluation values of different dimensions, reducing the dependence on professionals, improving the accuracy of determining the logistics path, improving the efficiency of determining the logistics path by modifying the target logistics path less than the times of modifying other logistics paths.

Inventors

  • CHEN JINJIE
  • CHEN TINGLONG
  • LIN GUANGWEI
  • LI JINTAO
  • CHEN XINGREN
  • XIAO JIE
  • LIN JIAN
  • LI ZHONG
  • ZHENG JIANXIN
  • CHEN HAIHUA
  • Cai Qiuwan
  • LI QINGLONG
  • LIU YAN
  • ZENG YAOTING

Assignees

  • 广东重工建设监理有限公司
  • 中新广州知识城财政投资建设项目管理中心
  • 深圳重诚项目管理有限公司
  • 成都重诚项目管理有限公司

Dates

Publication Date
20260512
Application Date
20260213

Claims (10)

  1. 1. A method of determining a physical distribution path, the method comprising: acquiring a plurality of logistics paths of a building object, and extracting dimension parameters of a plurality of target dimensions in the logistics paths; determining the total evaluation value of each logistics path according to the weight coefficient corresponding to each target dimension and the dimension parameter of each target dimension; And determining a target logistics path from all the logistics paths based on the total evaluation value.
  2. 2. The method of determining a physical distribution path according to claim 1, wherein the method further comprises: Determining a target dimension parameter of each target dimension according to the dimension parameters; determining a difference value between the dimension parameter and the target dimension parameter in each of the logistic paths; The determining a target logistics path from all the logistics paths based on the total evaluation value comprises: and determining a target logistics path from all the logistics paths based on the total evaluation value and the difference value.
  3. 3. The method for determining a physical distribution path according to claim 2, wherein the target dimension parameters include a positive target dimension parameter and a negative target dimension parameter, and the determining the target dimension parameter of each target dimension according to the dimension parameters includes: generating a standardized matrix according to the dimension parameters, wherein the standardized matrix comprises standardized values of each dimension parameter; and carrying out weighted calculation on the standardized matrix according to the weight coefficient corresponding to the target dimension to obtain a positive target dimension parameter and a negative target dimension parameter of each target dimension.
  4. 4. The method of determining a physical distribution path according to claim 3, wherein the difference value includes a positive difference value and a negative difference value, and the determining a target physical distribution path from among all the physical distribution paths based on the total evaluation value and the difference value includes: Determining a relative difference value for each of the flow paths based on the positive difference value and the negative difference value; Weighting the relative difference value and the total evaluation value according to preset weights to obtain a relative evaluation value of each logistics path; and determining the logistics path with the maximum relative evaluation value as a target logistics path.
  5. 5. The method for determining a physical distribution path according to any one of claims 1 to 4, wherein determining the total evaluation value of each physical distribution path according to the weight coefficient corresponding to each target dimension and the dimension parameter of each target dimension comprises: according to the dimension parameters, determining objective weight coefficients of each target dimension; Determining a target weight coefficient corresponding to the target dimension according to the objective weight coefficient and a preset subjective weight coefficient, wherein the subjective weight coefficient is determined based on the relative weight between each target dimension, and the relative weight is determined based on subjective factors; determining comparison weights among the logistics paths according to the dimension parameters of each target dimension, wherein the comparison weights comprise comparison weights corresponding to each target dimension; And determining the total evaluation value of each logistics path according to the target weight coefficient and the comparison weight.
  6. 6. The method according to claim 5, wherein before the determining the target weight coefficient corresponding to the target dimension according to the objective weight coefficient and a preset subjective weight coefficient, the method further includes: acquiring a scale value set for each target dimension; determining the undetermined weight of each target dimension according to the scale value, and determining the consistency index of the judgment matrix based on the undetermined weight; When the consistency index is smaller than a preset index threshold, determining the undetermined weight as a subjective weight coefficient; And when the consistency index is greater than or equal to the index threshold, adjusting the scale value until the consistency index is less than the index threshold.
  7. 7. The method for determining a physical distribution path according to claim 5, wherein determining objective weight coefficients for each of the target dimensions according to the dimension parameters comprises: determining a standardized value of each dimension parameter, and determining an entropy value of each target dimension based on the standardized value; and determining objective weight coefficients of each target dimension according to the entropy value of each target dimension.
  8. 8. A device for determining a physical distribution path, the device comprising: The acquisition module is used for acquiring a plurality of logistics paths of the building object; The extraction module is used for extracting dimension parameters of a plurality of target dimensions in the logistics path; The evaluation module is used for determining the total evaluation value of each logistics path according to the weight coefficient corresponding to each target dimension and the dimension parameter of each target dimension; and the determining module is used for determining a target logistics path from all the logistics paths based on the total evaluation value.
  9. 9. An electronic device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor implements the method of determining a physical distribution path according to any one of claims 1 to 7 when the computer program is executed.
  10. 10. A computer program product storing a computer program, characterized in that the computer program, when executed by a processor, implements the method of determining a logistics path according to any one of claims 1 to 7.

Description

Logistics path determining method and device and electronic equipment Technical Field The present invention relates to the field of data processing technologies, and in particular, to a method and an apparatus for determining a physical distribution path, and an electronic device. Background Along with the development of building technology, the scale of the building is also larger and larger, the equipped functions are also more and more, and the variety and quantity of resources such as materials, equipment and the like required for meeting each function are also more and more, so that the problem of low efficiency exists in a mode of manually transporting the resources. For example, for hospitals with larger and larger scale, the types of departments, examination rooms and functional rooms matched with the hospitals are more and more, the materials and equipment required by different departments are different, and at present, the corresponding quantity and types of materials and equipment are prepared for different departments, examination rooms and functional rooms, the materials are transported by relying on manpower, and the problem of low efficiency exists. At present, the logistics system can be additionally arranged, and resources required by the building can be transported by using transportation devices in the logistics system, so that the efficiency of transporting the resources is improved. However, the design of the path in the logistics system depends on experience of a professional, so that the problem of lower accuracy exists, the professional is required to repeatedly modify the designed path, and the problem of lower efficiency of the design of the logistics system exists. Disclosure of Invention The invention aims to overcome the defects of the prior art and provide a method and a device for determining a logistics path and electronic equipment. In a first aspect, an embodiment of the present invention provides a method for determining a physical distribution path, where the method includes: a method of determining a physical distribution path, the method comprising: acquiring a plurality of logistics paths of a building object, and extracting dimension parameters of a plurality of target dimensions in the logistics paths; determining the total evaluation value of each logistics path according to the weight coefficient corresponding to each target dimension and the dimension parameter of each target dimension; And determining a target logistics path from all the logistics paths based on the total evaluation value. In a possible implementation manner of the first aspect, the method further includes: Determining a target dimension parameter of each target dimension according to the dimension parameters; determining a difference value between the dimension parameter and the target dimension parameter in each of the logistic paths; The determining a target logistics path from all the logistics paths based on the total evaluation value comprises: and determining a target logistics path from all the logistics paths based on the total evaluation value and the difference value. In a possible implementation manner of the first aspect, the target dimension parameters include a positive target dimension parameter and a negative target dimension parameter, and the determining, according to the dimension parameters, the target dimension parameter of each target dimension includes: generating a standardized matrix according to the dimension parameters, wherein the standardized matrix comprises standardized values of each dimension parameter; and carrying out weighted calculation on the standardized matrix according to the weight coefficient corresponding to the target dimension to obtain a positive target dimension parameter and a negative target dimension parameter of each target dimension. In a possible implementation manner of the first aspect, the difference value includes a positive difference value and a negative difference value, and the determining, based on the total evaluation value and the difference value, a target logistics path from all the logistics paths includes: Determining a relative difference value for each of the flow paths based on the positive difference value and the negative difference value; Weighting the relative difference value and the total evaluation value according to preset weights to obtain a relative evaluation value of each logistics path; and determining the logistics path with the maximum relative evaluation value as a target logistics path. In one possible implementation manner of the first aspect, the determining, according to the weight coefficient corresponding to each target dimension and the dimension parameter of each target dimension, the total evaluation value of each logistics path includes: according to the dimension parameters, determining objective weight coefficients of each target dimension; Determining a target weight coefficient corresponding to