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RU-2861589-C1 - METHOD FOR CONFIGURING CONVEYOR SCHEDULING STRATEGY, CONVEYOR PROCESSING MANAGEMENT TERMINAL, AND SYSTEM

RU2861589C1RU 2861589 C1RU2861589 C1RU 2861589C1RU-2861589-C1

Abstract

FIELD: conveyor system. SUBSTANCE: invention relates to a method for configuring a conveyor scheduling strategy and a conveyor system. The method includes: determining the processed information of the scheduling strategy; wherein the processed information of the scheduling strategy includes an objective function determined from processing functions provided by a conveyor; determining a target sample using the scheduling strategy; and configuring the scheduling strategy according to the processed information and the target sample, where the scheduling strategy is used to instruct a processing module with the objective function on the conveyor to process the target sample. EFFECT: possibility of flexibly configuring different processing methods for different samples on a conveyor by configuring the processed information of the scheduling strategy and the target sample using the scheduling strategy, thereby increasing the intelligence of conveyor scheduling, i.e., replacing rigid algorithms with flexible ones capable of adapting to changes in real time. 10 cl, 7 dwg

Inventors

  • CHEN, Shujuan
  • PAN, LI
  • TANG, Junhui
  • DENG, Xiaoting
  • MA, Xie
  • ZHU, XIAOYANG
  • CHEN, HUA
  • XU, Baixun
  • DENG, YINGHUA

Dates

Publication Date
20260506
Application Date
20250502
Priority Date
20240511

Claims (20)

  1. 1. A method for setting up a pipeline scheduling strategy, including:
  2. determining the planning strategy information to be processed, wherein the planning strategy information to be processed includes an objective function determined from the processing functions provided by the pipeline; wherein the processing modules corresponding to the processing functions comprise a pre-processing module, an analysis detection module, and a post-processing module;
  3. determining the target sample using the planning strategy; and
  4. setting up a planning strategy according to the information being processed and the target sample, wherein the planning strategy is used to issue a command to the processing module with the target function on the conveyor to process the target sample;
  5. In this case, the definition of the processed information of the planning strategy includes:
  6. providing an interface for configuring the information being processed, wherein the interface for configuring the information being processed comprises at least one installation component, wherein the installation component comprises at least an installation string; and
  7. in response to receiving a plurality of objective functions set in the installation lines of a plurality of installation components, receiving an order of processing the objective functions; and
  8. obtaining the processed information of the planning strategy according to a set of target functions and the processing order;
  9. In this case, the determination of the target sample using the planning strategy includes:
  10. determining a target sample using a planning strategy according to at least one of the following: a sample delivery position, patient information associated with the sample, a fluid type, a sample type, sample container information, and test item information;
  11. wherein determining the target sample using a planning strategy according to at least one of the following: sample delivery position, patient information associated with the sample, fluid type, sample type, sample container information, and test element information includes:
  12. providing an application object setting interface, wherein the application object setting interface comprises at least one of the following: a sample feed position setting component, a patient information setting component, a liquid type setting component, a sample type setting component, a container information setting component, and an element information setting component;
  13. obtaining sample screening conditions performed in at least one of a sample feed position setting component, a patient information setting component, a liquid type setting component, a sample type setting component, a container information setting component, and an element information setting component; and
  14. determination of the target sample using the planning strategy according to the sample screening conditions.
  15. 2. The method according to paragraph 1, characterized in that the processed information includes at least two target functions, wherein the processed information additionally includes an order of processing of at least two target functions; wherein setting the planning strategy according to the processed information and the target sample includes:
  16. setting up a planning strategy according to the target functions, the processing order of the target functions and the target sample, wherein the planning strategy is used to issue a command for the planning sequence of the target sample according to the processing order to the processing modules with the target functions on the processing pipeline.
  17. 3. The method according to paragraph 1, characterized in that the determination of the processed information of the planning strategy includes:
  18. providing an interface for configuring the information being processed, wherein the interface for configuring the information being processed comprises at least one installation component, wherein the installation component comprises at least an installation string; and
  19. in response to the target function set in the installation line of the first component of the installation or the last component of the installation, which is a classified sample dumping function, receiving the processed information of the planning strategy according to the classified sample dumping function, wherein the planning strategy is used to issue a command to the sample dumping processing module on the conveyor to perform sample dumping processing with respect to the target sample according to the classified sample dumping order.
  20. 4. The method according to paragraph 1 or 3, characterized in that it additionally includes:

Description

Field of technology This application relates to the field of medical testing laboratories and sample analyzers and, in particular, to a method for setting up a conveyor scheduling strategy, a conveyor processing control terminal and a conveyor system. Background of the invention In medical testing laboratories, the pre-processing module, sample analyzer, and post-processing module can be connected via a track according to requirements. The conveyor control terminal then implements functions such as data integration, process management, automated operations, and data analysis, thereby ensuring more efficient and automated processing and analysis of biological samples. A typical pipeline control terminal can determine strategies based on sample characteristics, priorities, the current instrument status, workload, and other factors, such as priority scheduling and load-balancing scheduling. However, these scheduling strategies are relatively formulaic and cannot meet user requirements for intelligent scheduling. The essence of the invention Based on this, for the above technical problems, it is necessary to provide a method and apparatus for setting a conveyor scheduling strategy, a conveyor processing control terminal, a conveyor system and a machine-readable storage medium that can meet the requirements of intelligent scheduling. The method for setting up a pipeline scheduling strategy includes: determining the processing information of the planning strategy, where the processing information of the planning strategy includes an objective function determined from the processing functions provided by the pipeline; determining the target sample using the planning strategy; and setting up a planning strategy according to the information being processed and the target sample, where the planning strategy is used to issue a command to the processing module with the target function on the pipeline to process the target sample. The apparatus for setting up a conveyor planning strategy contains: a function determining component configured to determine the planning strategy information to be processed, where the planning strategy information to be processed includes a target function determined from the processing functions provided by the pipeline; an object determining component configured to determine a target sample using a planning strategy; and a configuration component configured to configure a planning strategy according to the information being processed and the target sample, where the planning strategy is used to issue a command to a processing module with a target function on a conveyor to process the target sample. The conveyor control terminal contains a memory device and a processor. The memory device stores the computer program. When executing the computer program, the processor implements the steps of the aforementioned method for setting up the conveyor scheduling strategy. The conveyor system comprises a track, various processing modules connected via the track, and the aforementioned conveyor control terminal. The processing modules and the track are respectively in communication with the conveyor control terminal. A computer program is stored on a machine-readable storage medium. When executed by the processor, the computer program implements the steps of the above-described method for setting up a pipeline scheduling strategy. According to the method and apparatus for setting the conveyor scheduling strategy, the conveyor processing control terminal, the conveyor system and the machine-readable storage medium, by setting the processing information of the scheduling strategy and the target sample using the scheduling strategy, different processing methods can be flexibly specified for different samples on the conveyor, thereby improving the artificial intelligence level of conveyor scheduling. Brief description of graphic materials Fig. 1 is a schematic illustration of a design of a conveyor system according to one embodiment; Fig. 2 is a flow chart of a method for setting up a pipeline scheduling strategy according to one embodiment; Fig. 3 is a schematic representation of an interface for setting up processed information according to one embodiment; Fig. 4 is a schematic diagram of an application object customization interface according to one embodiment; Fig. 5 is a schematic diagram of a scheduling strategy preview interface according to one embodiment; Fig. 6 is a block diagram of the design of an apparatus for setting up a conveyor scheduling strategy according to one embodiment; and Fig. 7 is a view illustrating the internal structure of a conveyor control terminal according to one embodiment. Detailed description of embodiments To provide a clearer understanding of the objectives, technical solutions, and advantages of this application, this application is further described in detail in conjunction with drawings and embodiments. It should be understood that the specific embodiments describe