一种舰船目标一维距离像识别的新方法

提出了一种基于傅里叶-梅林变换和二叉树支持向量机相结合的舰船目标一维距离像识别方法。该方法充分利用了傅里叶-梅林变换具有的时移与尺度不变性和支持向量机在小样本分类中的优势,可以改善目标的特征稳定性,提高识别性能。针对多类舰船目标的识别,提出采用聚类分析中的均值距离来生成二叉树,将分类器分布在各个节点上,构成了多类支持向量机,减少了分类器数量和重复训练样本的数量。对4类舰船目标仿真实验的结果表明,该分类方法具有较高的识别性能、较快的识别速度。     

数据融合技术在C3I系统中的应用

通过对数据融合技术在C3i系统中应用的探讨,说明了数据融合技术是未来C3I系统中一个重要的技术领域,对于增强C3i系统的作战效能具有重要的作用.     

面向作战时节的装甲目标威胁评估方法

针对装甲目标威胁评估指标权重随着作战时节的动态变化,容易导致评估结果前后有差异的问题,运用灰色区间关联法,引入区间灰数与灰度,对评估指标区间内的不确定性信息进行了量化。同时,运用变权理论,通过调整权向量,构造反映作战时节内装甲目标威胁评估指标权重变化的均衡函数,对装甲目标威胁程度进行了科学、合理的评估,解决了传统评估方法中评估结果与实际威胁程度不一致的问题,为下一步的威胁评估研究工作提供了理论参考与方法支持。     

基于支持向量机的多传感器空中目标识别研究

针对空中目标识别的复杂性,将支持向量机引入对空中目标的多传感器识别,对其机理进行了详细分析,建立了基于支持向量机的空中目标识别的算法模型.仿真实验的结果表明,该方法具有很好的识别效果,并且是一种能在训练样本很少的情况下达到很好分类推广能力的学习算法.     

防空导弹火力单元战斗效率评估

从防空战斗的实际需求出发,结合现行防空作战运筹理论中存在的问题,提出了防空导弹火力单元战斗效率指标应包括完成射击任务概率和毁歼空中目标数量等分指标的观点,利用概率论和军事运筹等方法,分析了这两项分指标的构成要素及其相互关系,并建立了相应的评估模型,结合实例说明了模型的具体应用.     

基于贝叶斯反馈云模型的空中目标威胁评估

在现代战争中,空袭与防空作战仍将是主要作战方式之一。对防空方而言,及早发现空袭目标、准确判断空袭意图,是合理分配火力、最大限度发挥自身抗击能力的基本前提。综合考虑了攻防双方及作战环境等因素的影响,建立空中目标威胁评估指标体系。采用云模型理论较好地处理了空袭的模糊性和随机性,通过贝叶斯反馈对专家主观认识差异进行修正,使专家意见更加统一,使威胁评估结果更为简洁合理,便于指挥员快速准确作出决策。     

融合战术与修正物理特征的空中目标战术类型识别

针对敌方飞行器隐身、伪装技术的日趋成熟,致使我方由侦察设备获取的电磁信号严重变形,特别是物理特征在目标类型识别中的作用日趋减弱的现实问题,提出了一种融合目标战术特征修正物理特征证据的目标战术类型识别方法。该方法从目标战术类型识别的军事需求出发,提出对冲突物理特征证据的阶梯式修正规则,以及对冲突证据折扣因子的优化方法,并将修正后的证据重新组合得到识别结果。仿真实例证明该方法在处理目标冲突物理特征证据时具有高准确率的特点。该方法为复杂环境下的目标战术类型识别问题提供一种新的解决思路。     

Bi‐objective missile rescheduling for a naval task group with dynamic disruptions

This paper considers the rescheduling of surface‐to‐air missiles (SAMs) for a naval task group (TG), where a set of SAMs have already been scheduled to intercept a set of anti‐ship missiles (ASMs). In missile defense, the initial engagement schedule is developed according to the initial state of the defensive and attacking units. However, unforeseen events may arise during the engagement, creating a dynamic environment to be handled, and making the initial schedule infeasible or inefficient. In this study, the initial engagement schedule of a TG is assumed to be disrupted by the occurrence of a destroyed ASM, the breakdown of a SAM system, or an incoming new target ASM. To produce an updated schedule, a new biobjective mathematical model is formulated that maximizes the no‐leaker probability value for the TG and minimizes the total deviation from the initial schedule. With the problem shown to be NP‐hard, some special cases are presented that can be solved in polynomial time. We solve small size problems by the augmented ? ‐ constraint method and propose heuristic procedures to generate a set of nondominated solutions for larger problems. The results are presented for different size problems and the total effectiveness of the model is evaluated.     

Path planning for moving target tracking by fixed-wing UAV

For the automatic tracking of unknown moving targets on the ground, most of the commonly used methods involve circling above the target. With such a tracking mode, there is a moving laser spot on the target, which will bring trouble for cooperative manned helicopters. In this paper, we propose a new way of tracking, where an unmanned aerial vehicle (UAV) circles on one side of the tracked target. A circular path algorithm is developed for monitoring the relative position between the UAV and the target considering the real-time range and the bearing angle. This can determine the center of the new circular path if the predicted range between the UAV and the target does not meet the monitoring requirements. A transition path algorithm is presented for planning the transition path between circular paths that constrain the turning radius of the UAV. The transition path algorithm can generate waypoints that meet the flight ability. In this paper, we analyze the entire method and detail the scope of applications. We formulate an observation angle as an evaluation index. A series of simulations and evaluation index comparisons verify the effectiveness of the proposed algorithms.