跟踪雷达超低空目标捕获距离的精确估算方法

根据比较精确的数学模型,考虑到海情、地球曲率、海水反射特性及极化方式等各种因素影响,对应不同雷达截面积的目标,我们可计算出低仰角时接收机输出信噪比与距离的关系曲线。根据雷达的积累信噪比,可用该曲线比较精确地估算出跟踪雷达对超低空目标的最大捕获距离。     

图象跟踪算法分析

对自适应分析质心跟踪算法、相关跟踪算法和倒谱法等几种典型的跟踪算法作了介绍,提出了计算量较少、精度较高的相移算法。最后,对这些算法作了分析比较。     

FUZZY ALGORITHM FOR RADAR SIGNAL PROCESSING

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基于模糊理论的空袭目标威胁判断模型

对空袭目标威胁度进行合理排序是提高防空效能的重要因素。分析了影响空袭目标威胁度的各种因素,利用模糊综合评判的思想,建立了一种进行目标威胁判断的模型,并根据具体情况给出了排序的合理方法。通过实例,给出了具体的计算过程,并将此方法得出的结果与文献中的方法得出的结果进行了比较,充分说明了模型的可行性。     

自适应窗口仿射最小二乘匹配方法

为了解决仿射最小二乘匹配方法在未知初始参数条件下无法自适应选择匹配窗口的问题,提出了一种基于局部形状估计的自适应窗口最小二乘匹配方法。利用LOG(Laplacian of Gaussian)算子检测特征点以及特征点所在的尺度;在特征点邻域内根据特征尺度计算局部二阶矩矩阵,用二阶矩矩阵估计特征点局部的形状特征;根据特征点局部的形状自适应选择初始匹配窗口进行仿射最小二乘迭代。实验结果表明,该方法在较大仿射变形下能够准确的选择有效匹配区域,避免因窗口内容差异造成的迭代不收敛问题。     

有限声速的纯方位算法

针对纯方位条件下对等速直航目标观测的算法问题,将目标运动要素及平均声速作为待估计参数,给出了计算非线性最小二乘法目标函数梯度与Hessian矩阵的解析公式,基于这些公式,可以构造估计目标运动要素的一些算法及编程实现。部分数值实验表明,信赖域算法、Levenberg-Marquardt算法与Matlab用于解非线性最小二乘问题的函数lsqnonlin的计算精度基本一致。     

What determines military allocations in Africa: Theoretical and empirical investigations

This paper investigates theoretically and empirically the determinants of military spending in Africa. It specifies a formal model and uses time‐series and cross‐sectional estimations to ascertain the reasons behind variations in military allocations across and within 40 African countries during 1960–1991. The differences in military expenditures appear to reflect a complex of economic, political, and strategic factors at both national and international levels. Strategic considerations are, however, found to be the most important factors in most African countries.     

导频设计的MIMO-OFDM改进信道估计算法

为提高系统的传输效率并改善信道估计的性能,提出了一种结合优化导频设计的分段带阻滤波算法.采用优化的导频设计,该算法在少量增加计算复杂度的基础上,能够进一步提高信道估计的性能,与实际中广泛应用的经典时域滤波算法相比,具有更高的估计精度.仿真结果证明该算法适用于不同的信道环境,尤其在低信噪比的条件下,该算法能够明显降低信道估计的MSE.     

基于改进CS的随机PRI雷达精确测速及杂波抑制算法

传统的脉冲多普勒雷达存在严重的测距测速模糊和盲区效应。考虑在正常脉冲重复间隔(PRI)上叠加一个随机扰动,并把PRI的随机变化巧妙转化为稀疏观测矩阵的受限等距性质,提出的基于压缩感知的随机脉冲重复间隔雷达为全相参动目标检测提供了一种新思路。针对其在实际应用中存在的粗糙损失和杂波干扰两个问题,分别提出了基于局部词典细化的精确测速算法和基于改进优化模型的杂波抑制方法。仿真实验结果表明该方案具有较高的测速精度和较强的杂波抑制性能。     

Adaptive sliding mode control of modular self-reconfigurable spacecraft with time-delay estimation

The reconstruction control of modular self-reconfigurable spacecraft (MSRS) is addressed using an adaptive sliding mode control (ASMC) scheme based on time-delay estimation (TDE) technology. In contrast to the ground, the base of the MSRS is floating when assembled in orbit, resulting in a strong dynamic coupling effect. A TED-based ASMC technique with exponential reaching law is designed to achieve high-precision coordinated control between the spacecraft base and the robotic arm. TDE technology is used by the controller to compensate for coupling terms and uncertainties, while ASMC can augment and improve TDE’s robustness. To suppress TDE errors and eliminate chattering, a new adaptive law is created to modify gain parameters online, ensuring quick dynamic response and high tracking accuracy. The Lyapunov approach shows that the tracking errors are uniformly ultimately bounded (UUB). Finally, the on-orbit assembly process of MSRS is simulated to validate the efficacy of the proposed control scheme. The simulation results show that the proposed control method can accurately complete the target module’s on-orbit assembly, with minimal perturbations to the spacecraft’s attitude. Meanwhile, it has a high level of robustness and can effectively eliminate chattering.