CN-121998793-A - Functional architecture oriented to manufacturing decision system and cooperative mechanism thereof

Abstract

The invention provides a modularized functional architecture and a cooperative mechanism thereof for a manufacturing decision system, which realize the structuring organization and multiplexing cooperation of the manufacturing decision process by constructing a multi-layer capability system, a functional module system and a standardized behavior interface. The framework comprises a data interface module, a decision target module, a disturbance response module and a fusion decision module, and defines the data flow, the control flow and the triggering relation among the modules. The system completes target expression, constraint analysis, disturbance identification and collaborative decision generation through standardized access of multi-source data such as orders, productivity, materials, processes and the like, and forms an interpretable and executable decision link. The invention realizes modularization, interpretability and intelligent coordination of the manufacturing decision system and supports multi-scenario and multi-industry manufacturing decision application.

Inventors

• QIAO YUXUAN

Assignees

• 乔宇轩

Dates

Publication Date

20260508

Application Date

20260127

Claims (12)

1. 1. A method of making a decision, comprising: 1) Constructing a multi-layer capability system for manufacturing decisions; 2) Constructing a functional architecture of a manufacturing decision system based on the capability system; 3) Abstracting functional capabilities in the functional architecture into a set of standardized behavior units; 4) Constructing a decision link of a manufacturing scene based on the behavior unit; 5) Implementing a decision process of a manufacturing scenario by executing the decision link; The multi-layer capability system, the functional architecture, the standardized behavior unit and the decision link are defined independently, and a reusable and extensible manufacturing decision system is formed through a preset dependency relationship and a call relationship.
2. 2. The method of claim 1, wherein the multi-layer capability hierarchy includes a data capability layer, a target capability layer, a constraint capability layer, a collaboration capability layer, a response capability layer, an intelligent capability layer, a model/operator capability layer, an algorithm capability layer, and a template/acceleration capability layer.
3. 3. The method of claim 1, wherein the functional architecture comprises functional units for data processing, objective management, decision generation, or perturbation response.
4. 4. The method of claim 1, wherein the standardized behavior cell is used to uniformly encapsulate capabilities of the functional cell.
5. 5. The method of claim 1, wherein the decision link is composed of a plurality of behavior units according to a preset dependency relationship.
6. 6. The method of claim 1, wherein the decision link is used to construct a scheduling, plug-in processing, fault response, or material shortage processing scenario.
7. 7. A manufacturing decision system, comprising: 1) A multi-layer capability system for providing the basic capabilities required for manufacturing decisions; 2) A functional architecture for engineering the capabilities; 3) A behavior interface layer, configured to abstract the capability of the functional architecture into a standardized behavior unit; The system performs scene arrangement based on the behavior units to construct a decision link of a manufacturing scene, so that decoupling between a capability layer and a scene application is realized through the behavior interface layer, and the manufacturing decision process can be combined and multiplexed in a behavior unit mode.
8. 8. The system of claim 7, wherein the functional architecture comprises a data interface module, a decision target module, a disturbance response module, and a fusion decision module.
9. 9. The system of claim 7, wherein the behavioral interface layer is to expose capabilities of a functional architecture in a unified interface manner.
10. 10. The system of claim 7, wherein the scene orchestration is used to select units of behavior and form a sequence of actions according to scene requirements.
11. 11. The system of claim 7, wherein the system employs a hierarchy of capability layer-function layer-behavior layer.
12. 12. The system of claim 7, wherein the behavior unit is to implement reusability, interpretability, and extensibility of a manufacturing decision process.

Description

Functional architecture oriented to manufacturing decision system and cooperative mechanism thereof Technical Field The invention relates to the technical field of intelligent manufacturing and manufacturing decision making, in particular to a functional architecture oriented to a manufacturing decision making system and a cooperative mechanism thereof, belonging to the technical field of crossing of manufacturing decision making system engineering, system architecture design and decision making methods. The invention focuses on the functional module division of the manufacturing decision system in the engineering level, the interaction relation among the modules and the standardized coordination mode thereof. Background Along with the continuous increase of the scale and complexity of manufacturing industry, enterprises face significant uncertainty in order delivery, production energy utilization, material alignment, equipment stability and the like. Manufacturing decision processes require high quality decisions to be continually made between multi-source heterogeneous data, complex process constraints, dynamic perturbation events, and multi-objective trade-offs. However, existing manufacturing decision systems are generally built with a single algorithm or single functional module as a core, and lack of a unified functional structure leads to the following problems: 1. The functions such as data processing, target expression, decision generation, abnormal response and the like are often coupled in the same module, so that the functions are difficult to expand, multiplex or maintain; 2. The module has the defects of lack of standardized data flow and control flow among different functions, and the system behavior depends on the internal logic of the module, so that the decision process is unpredictable and unexplained; 3. The disturbance response capability is weak, namely, disturbance events such as bill insertion, material shortage, equipment failure and the like frequently occur, but the traditional system is difficult to trigger local or global decision updating rapidly, and the dynamic scheduling capability is insufficient; 4. Intelligent capacity fragmentation, namely human experience, operation Optimization (OR) and Artificial Intelligence (AI) often exist in an independent mode, a unified fusion mechanism is lacking, and collaborative decision-making capacity is difficult to form; 5. the lack of architectural architecture, the prior art focuses on algorithmic implementation or scene application, and the lack of systematic definition and structural organization of the manufacturing decision system at the functional level. The inventor previously puts forward the capability framework of the manufacturing decision system in the parent application with the application number 2026100451795, defines the capability composition and decision links of the system at the abstract level, constructs capability bases of multiple layers, and realizes the functional modules such as data interfaces, target construction, disturbance response, fusion decision and the like in the sub-applications with the application numbers 2025113006004, 2025116134466, 2025119141404, 2026100085765 and the like. However, the above-mentioned parent and child cases do not systematically define the collaboration mechanism and standardized action system between the functional modules of the manufacturing decision system. Therefore, it is necessary to propose a functional architecture and a collaboration mechanism thereof for a manufacturing decision system, which are used for constructing a unified structure and behavior interface of an application layer, so that each functional module of a capability base can cooperatively operate in a scene, thereby forming a complete manufacturing decision system patent system. Disclosure of Invention The present invention belongs to a functional architecture layer of a manufacturing decision system, and the capability architecture proposed by the inventor before in the patent with the application number 2026100451795 belongs to different technical levels. The capacity architecture defines capacity composition and decision links of the manufacturing decision system from an abstract level, and the invention structurally divides functional modules of the system from an engineering realization angle, and the capacity architecture comprises a data interface module, a decision target module, a disturbance response module and a fusion decision module, and further defines data flow, control flow and a cooperative mechanism among the modules. The inventor previously describes the specific implementation methods of the functional modules in the sub-cases with application numbers 2025113006004, 2025116134466, 2025119141404, 2026100085765 and the like, and belongs to the technical scheme of the implementation level. As shown in fig. 1, the present invention forms a three-layer complementary structure with the ca