System combat ability quantitative analysis method based on super network and OODA ring theory

Abstract

The invention discloses a system combat ability quantitative analysis method based on a super network and an OODA ring theory. The method comprises: establishing a super-network model according to a combat system, the super network comprises four types of nodes and seven types of edges; the four types of nodes are respectively detection nodes VO, decision node VD, striking a node VA and a target node VT; wherein the seven types of edges are respectively a detection relationship ETO representing that the target node can be detected by the detection node; representing a cooperative relationshipEOD that the detection node sends the target information to the decision node; representing a command and control relationship EDA that the decision node directs the striking node to strike; representing a strike relationship EAT that the strike node attacks the target node; wherein the EOO represents the information transmission and sharing relationship of information sharing between the detection nodes, representing the superior-subordinate command relationship EDD of the superior-subordinate relationship between the decision nodes, and representing the cooperative strike relationship EAA ofthe strike nodes to strike the same target cooperatively; constructing an adjacent matrix according to the super network; and calculating the comprehensive capability of the system according to the adjacent matrix characteristic values.

Description

technical field [0001] The invention relates to the technical field of system modeling and analysis, in particular to a system capability quantitative analysis method based on OODA ring theory. Background technique [0002] With the development of artificial intelligence technology and unmanned system technology, the face of modern warfare has undergone great changes, and the battlefield situation is changing rapidly. Seizing fleeting favorable opportunities in the rapidly changing battlefield has become the key to winning an intelligent war. Modern warfare is a system-to-system confrontation. The combat system is large in scale and complex in structure. How to quickly calculate and analyze the combat capabilities of the opposing systems is the core problem to be solved in order to seize the fleeting opportunity. [0003] The analysis and quantification of the overall combat capability of the complex system is less, and the analysis is mainly focused on certain aspects of th...

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Problems solved by technology

For example, Professor Guo Qisheng from the School of Armored Forces Engineering analyzed the network statistical characteristic parameters of the equipment system structure, and proposed the concepts of network connectivity coefficient and network invulnerability coefficient, and used them to evaluate the network connectivity, robustness, and vulnerability of the equipment system structure. Analysis, description and measurement, this analysis method only focuses on the connectivity, robustness, and vulnerability of the system, and cannot fully evaluate the combat effectiveness of the entire system

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