目标分配是指挥控制流程中的核心环节,分配模式的优化对于提升防空反导作战能力具有重要意义.为提高防空反导目标分配的鲁棒性、适用性以及博弈对抗性等作战性能,以应对当前复杂多变的战场环境,本文提出建立多模式融合的目标分配体系结构,对商用订单式的服务模式进行适应性改进,将"派单""抢单""抢派单融合"三种模型改进定义为军事模型;通过使用美国国防部体系结构框架(Department of Defense Architecture Framework,DoDAF)建立"他分配""自分配""他分配与自分配结合"的新型目标分配体系结构;引入Perti网模型,构建并分析Petri网模型的可达图,通过仿真实验平台,构建复杂作战场景,验证了分配策略机制的可行性.结果表明三种策略各具优势,本文设计的多策略结合在匹配时间、成功率以及效用值方面相较传统的单一策略具有较大优势.
Model Design of Weapon Target Assignment System Based on Multi-Mode Fusion
Target assignment is the core part in the command and control process,and the optimization of the allo-cation mode is of great significance for improving the air defense and anti-missile combat capability.In order to improve the robustness,applicability,game antagonism and other combat performance of air defense and anti-missile target allo-cation,so as to cope with the current complex and changeable battlefield environment,this paper proposes the target al-location architecture establishment of multi-mode fusion,and adaptively improve the commercial order-type service mode.The improvement of three kinds of dispatching models,that are"dispatching order""grabbing order"and"dis-patching-grabbing order fusion",are defined as military models.By using the US department of defense architecture framework(DoDAF)to establish a new target allocation architecture of"other allocation""self-allocation"and"com-bination of other allocation and self-allocation".With the introduction of Perti net model,the reachable map of Petri net model is constructed and analyzed.Through the simulation experiment platform,the complex combat scenario is constructed to verify the feasibility of the distribution strategy mechanism.The results show that each of the three strate-gies has its own advantages.The multi-strategy combination designed in this paper has greater advantages than the tra-ditional single strategy in matching time,success rate and utility value.
weapon target assignmentUS department of defense architecture frameworkPetri netother alloca-tionself-allocationcommand and controlmodel design
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