基于目标流驱动的作战体系动态同步分析方法

李森, 王亮, 陈刚, 吴静

系统工程理论与实践 ›› 2022, Vol. 42 ›› Issue (1) : 241-252.

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系统工程理论与实践 ›› 2022, Vol. 42 ›› Issue (1) : 241-252. DOI: 10.12011/SETP2019-2739
论文

基于目标流驱动的作战体系动态同步分析方法

    李森1, 王亮1, 陈刚1, 吴静2
作者信息 +

Dynamic synchronization analysis method of operation system-of-systems based on target stream drive

    LI Sen1, WANG Liang1, CHEN Gang1, WU Jing2
Author information +
文章历史 +

摘要

针对固定结构下作战体系的静态同步分析,不能有效反映节点耦合关联时变特性的问题,提出了基于目标流驱动的动态同步能力分析方法.将进袭目标视为激励体系响应与结构调整的本质动因,通过对抗条件下体系要素属性与拓扑演化的宏观特征分析,讨论了目标流对同步的正负两方面影响;并结合作战环理论与耦合振子模型,研究了体系相位同步的机理与表征,构建了节点相位迭代的更新方法.与静态相比,仿真实验表明动态同步具有特殊的动力学行为,振荡样式与同步能力差异明显.

Abstract

Based on the facts, the time-varying characteristics of node-coupling relevancy, can't be reflected effectively by the static-synchronization analysis for operation system-of-systems (SoS) under fixed structure, another dynamic-synchronization analysis method for operation SoS, driven by target stream, is proposed. Regarding target's attacking as the essential impetus to the SoS response and structural adjustment, the positive and negative effects of target stream on synchronization are discussed, by analyzing the macro characteristics on element attributes and topology evolution under the condition of SoS combat. Integrated with combat ring theory and coupled oscillator model, the mechanism and characterization of SoS phase synchronization are studied. Moreover, the updating method of node phase iteration is presented. Compared with the static-synchronization, the simulation results exhibit obvious differences among the dynamic-synchronization possessing special dynamic characteristic, and the oscillation pattern and synchronization ability.

关键词

作战体系 / 复杂网络 / 目标流 / 同步

Key words

operation system-of-systems / complex network / target stream / synchronization

引用本文

导出引用
李森 , 王亮 , 陈刚 , 吴静. 基于目标流驱动的作战体系动态同步分析方法. 系统工程理论与实践, 2022, 42(1): 241-252 https://doi.org/10.12011/SETP2019-2739
LI Sen , WANG Liang , CHEN Gang , WU Jing. Dynamic synchronization analysis method of operation system-of-systems based on target stream drive. Systems Engineering - Theory & Practice, 2022, 42(1): 241-252 https://doi.org/10.12011/SETP2019-2739
中图分类号: TP391.9   

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