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CN-121998346-A - Task dispatching method

CN121998346ACN 121998346 ACN121998346 ACN 121998346ACN-121998346-A

Abstract

The invention provides a task dispatch method. The task distribution method comprises the steps of determining first heat source distribution based on a construction drawing and construction environment information of a construction project, determining a plurality of heat field distributions of the construction drawing based on the construction drawing and the first heat source distribution, determining a temperature thermal map based on the plurality of heat field distributions, and distributing a construction task based on the temperature thermal map.

Inventors

  • ZENG YUN
  • YANG ZHIYING

Assignees

  • 一智科技(成都)有限公司

Dates

Publication Date
20260508
Application Date
20250903

Claims (10)

  1. 1. A method of task dispatch, the method comprising: Determining first heat source distribution based on construction drawings and construction environment information of the construction projects, wherein the first heat source distribution comprises heat source position information and heat source types of heat sources on the construction drawings; Determining a plurality of thermal field distributions of the construction drawing based on the construction drawing and the first heat source distribution; determining a temperature thermal map based on the plurality of thermal field distributions; and dispatching a construction task based on the temperature heat map.
  2. 2. The method of claim 1, wherein the construction environment information includes environment data, thermal signal data, and space data, and wherein determining a first heat source distribution based on the construction drawing of the construction project and the construction environment information includes: determining a heat source type of the heat source based on the environmental data and the heat signal data, the heat source type being a source category of heat radiation; Determining heat source position information of the heat source on the construction drawing based on the heat signal data and the space data; a first heat source distribution is determined based on the heat source type and the heat source location information.
  3. 3. The method of claim 1, wherein the determining a plurality of thermal field distributions for the construction drawing based on the construction drawing and the first heat source distribution comprises: Determining construction material information based on the construction drawing; and determining a plurality of thermal field distributions of the construction drawing based on the first heat source distribution and the construction material information.
  4. 4. A method according to claim 3, wherein the thermal field distribution comprises at least a temperature distribution and a heat flow direction within each grid in the construction drawing, the grids in the construction drawing being determined based on the steps of: determining a construction area based on the construction drawing; And determining a plurality of grids of the construction drawing based on the construction area.
  5. 5. The method of claim 1, wherein the determining the temperature thermal map based on the plurality of thermal field distributions comprises: determining a plurality of temperature zones based on the plurality of thermal field distributions; the temperature thermal map is determined based on the plurality of temperature zones.
  6. 6. The method of claim 1, wherein dispatching a construction task based on the temperature thermal map comprises: determining a construction area and at least one construction task item corresponding to the construction area based on the construction drawing; Determining a task temperature condition of the at least one construction task item; Screening out tasks to be dispatched, which are met by the task temperature conditions, based on a plurality of temperature areas of the temperature thermodynamic map; And determining a target constructor based on the task to be distributed and the plurality of temperature areas, and distributing the construction task to the target constructor.
  7. 7. The method of claim 6, wherein the determining a target constructor based on the task to be dispatched and the plurality of temperature zones comprises: acquiring heat resistance indexes of constructors; And determining the constructor as a target constructor of the target temperature zone in response to the heat resistance index meeting the target temperature zone.
  8. 8. The method of claim 6, wherein the method further comprises: Determining a time-series thermodynamic map of a future preset time based on the influence of the distributed task on the first heat source distribution; Acquiring priority information of a task to be dispatched in the future preset time; Determining a priority task and a task temperature condition of the priority task based on the priority information; and matching and dispatching the priority task based on the time sequence thermodynamic map and the task temperature condition of the priority task.
  9. 9. The method of claim 8, wherein the matching dispatch of the priority task based on the time-series thermodynamic map and a task temperature condition of the priority task comprises: adjusting the dispatched task in response to the time-sequential thermodynamic map failing to match task temperature conditions of the prioritized task; updating the time sequence thermodynamic map based on the adjusted distributed tasks; And matching and dispatching the priority task based on the updated time sequence thermodynamic map and the task temperature condition of the priority task.
  10. 10. The method of claim 6, wherein the method further comprises: Determining a second heat source distribution based on the construction task item being performed; determining a heat source abnormality region based on the first heat source distribution and the second heat source distribution; obtaining an investigation result of the heat source abnormal region; Determining the temperature thermodynamic map based on the first heat source distribution in response to the investigation result being normal; and determining the temperature heat map based on the second heat source distribution in response to the investigation result being abnormal.

Description

Task dispatching method Description of the division The application provides a divisional application for China application with a task dispatch method and system aiming at the application date of 2025, 09 and 03, the application number of 202511247706.2. Technical Field The specification relates to the field of construction management, in particular to a task dispatching method. Background In the construction industry, constructors often need to work in a high temperature environment for various reasons such as open air construction, high temperature operation, heat generation of construction equipment, and the like. In the existing construction management method, in order to ensure the physical health of constructors, when the air temperature is high, all construction projects need to be suspended, so that the construction progress can be stopped, and meanwhile, the safety and quality of part of key construction procedures needing continuous operation cannot be ensured. Therefore, it is desirable to provide a task distributing method that can reasonably distribute construction tasks by monitoring construction environment information and the like, thereby improving construction quality and efficiency while guaranteeing physical health of constructors and ensuring smooth progress of construction tasks. Disclosure of Invention The method comprises the steps of determining first heat source distribution based on construction drawings of construction projects and construction environment information, determining multiple heat field distribution of the construction drawings based on the construction drawings and the first heat source distribution, determining a temperature thermal map based on the multiple heat field distribution, and distributing construction tasks based on the temperature thermal map. In some embodiments, the construction environment information comprises environment data, heat signal data and space data, wherein the determining of the first heat source distribution based on the construction drawing of the construction project and the construction environment information comprises determining a heat source type of the heat source based on the environment data and the heat signal data, wherein the heat source type is a source type of heat radiation, determining heat source position information of the heat source on the construction drawing based on the heat signal data and the space data, and determining the first heat source distribution based on the heat source type and the heat source position information. In some embodiments, the determining the plurality of thermal field distributions of the construction drawing based on the construction drawing and the first heat source distribution includes determining construction material information based on the construction drawing, and determining the plurality of thermal field distributions of the construction drawing based on the first heat source distribution and the construction material information. In some embodiments, the thermal field distribution includes at least a temperature distribution and a heat flow direction within each grid in the construction drawing, the grids in the construction drawing being determined based on determining a construction area based on the construction drawing, and determining a plurality of grids of the construction drawing based on the construction area. In some embodiments, the determining the temperature thermal map based on the plurality of thermal field distributions includes determining a plurality of temperature zones based on the plurality of thermal field distributions, and determining the temperature thermal map based on the plurality of temperature zones. In some embodiments, dispatching a construction task based on the temperature thermal map comprises determining a construction area and at least one construction task item corresponding to the construction area based on the construction drawing, determining task temperature conditions of the at least one construction task item, screening out tasks to be dispatched, which meet the task temperature conditions, based on a plurality of temperature areas of the temperature thermal map, determining a target constructor based on the tasks to be dispatched and the plurality of temperature areas, and dispatching the construction task to the target constructor. In some embodiments, the determining a target constructor based on the task to be dispatched and the plurality of temperature zones includes obtaining a heat resistance index of the constructor, responsive to the heat resistance index meeting a target temperature zone, determining the constructor as a target constructor of the target temperature zone. In some embodiments, the method further comprises determining a time sequence thermodynamic map of a future preset time based on the influence of the dispatched task on the first heat source distribution, acquiring priority information of the task to be