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为保障空管系统安全有效运行,将复杂网络理论用于空管设备系统应急保障能力分析。建立基于复杂动态网络流-容量模型的空管设备系统业务持续性评估模型,分析空管设备系统中运行持续性较差的薄弱环节和区域,提出基于复杂网络的多约束空管设备布局规划算法。基于复杂网络理论的空管设备布局规划算法能够有效分析空管设备多重覆盖特征的网络结构和突发事件对空管设备系统的冲击,其中空管设备系统业务持续性评估模型改变了以往仅注重单个设备可靠性的分析方式,基于复杂网络的多约束空管设备布局规划算法改变了目前主要根据经验进行分析和配置而缺乏科学理论支持的现状。该设备布局规划算法确保了空管设备系统在突发事件下运行的持续性。
In order to ensure the safe and effective operation of air traffic control system, the complex network theory is applied to the emergency support capability analysis of air traffic control equipment system. The business continuity assessment model of air traffic control equipment system based on the complex dynamic network flow-capacity model is established. The weak links and regions with poor continuity in the air traffic control equipment system are analyzed. The layout planning algorithm of multi-constraint air traffic control equipment based on complex network is proposed . The air traffic control equipment layout planning algorithm based on complex network theory can effectively analyze the network structure with multiple coverage characteristics of air traffic control equipment and the impact of unexpected events on the air traffic control equipment system. The business continuity assessment model of the air traffic control equipment system changes the previous emphasis The reliability analysis of a single device, and the layout planning algorithm of multi-constraint air traffic control equipment based on complex networks have changed the current status of mainly analyzing and configuring based on experience without scientific support. The device layout planning algorithm ensures the continuity of the ATC system under emergencies.