Order assignment mechanism based on hierarchical decomposition and element matching

Order assignment mechanism based on hierarchical decomposition and element matching

This paper proposes an element-matching based order-based accusation partition tasking method. The aim is to improve the flexibility and precision of operational command and control and the integration and synergy effectiveness of the combat system. The method is based on the construction of an inte...

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Bibliographic Details
Main Author: ZHANG Xinyue, LYU Weimin, WEI Dingjiang, YANG Dongsheng
Format: Article
Language:zho
Published: Editorial Office of Command Control and Simulation 2025-06-01
Series:Zhihui kongzhi yu fangzhen
Subjects:
order-based command and control|task allocation|task hierarchical decomposition|two-phase process optimization|task adaptation analysis
Online Access:https://www.zhkzyfz.cn/fileup/1673-3819/PDF/1748399528298-625938559.pdf
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Summary:This paper proposes an element-matching based order-based accusation partition tasking method. The aim is to improve the flexibility and precision of operational command and control and the integration and synergy effectiveness of the combat system. The method is based on the construction of an integrated framework. This integrates and coordinates operational tasks, ensures no resource conflicts, and provides alternatives for responding to battlefield variables. The approach employs a planning network model to illustrate the logical interrelationships among operations. It then utilizes mission adaptive analysis and a two-phase process optimization to achieve the optimal matching of the aggregation of underlying operations to sub-tasks and accusation sites. In particular, the mechanism considers the multi-level attributes of the mission, including hierarchical, logical, temporal, spatial, and functional relationships, as well as the matching rules between the core baseline elements and the auxiliary reference elements, in order to ensure a high degree of fitness between the mission deployment and the accusation partitions. Furthermore, the method places significant emphasis on dynamic adjustment and mission adaptability. This is achieved through the utilization of the flexibility of edge command nodes, which enables them to cope with unexpected situations and guarantee the continuity of the operational command link, thus facilitating the efficient achievement of operational goals.
ISSN:1673-3819

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